/***************************************************************************
* Copyright (C) 2019 Ryan Schultz, PCSX-df Team, PCSX team, gameblabla, *
- * dmitrysmagin, senquack *
+ * dmitrysmagin, senquack *
* *
* This program is free software; you can redistribute it and/or modify *
* it under the terms of the GNU General Public License as published by *
#include "gpu.h"
#include "sio.h"
#include "psxhle.h"
+#include "psxinterpreter.h"
+#include "new_dynarec/events.h"
#include <zlib.h>
-#if (defined(__GNUC__) && __GNUC__ >= 5) || defined(__clang__)
-#pragma GCC diagnostic ignored "-Wpointer-sign"
+#ifndef PSXBIOS_LOG
+//#define PSXBIOS_LOG printf
+#define PSXBIOS_LOG(...)
#endif
-#undef SysPrintf
-#define SysPrintf if (Config.PsxOut) printf
+#define PTR_1 (void *)(size_t)1
char *biosA0n[256] = {
// 0x00
"realloc", "InitHeap", "_exit", "getchar",
"putchar", "gets", "puts", "printf",
// 0x40
- "sys_a0_40", "LoadTest", "Load", "Exec",
+ "SystemErrorUnresolvedException", "LoadTest", "Load", "Exec",
"FlushCache", "InstallInterruptHandler", "GPU_dw", "mem2vram",
- "SendGPUStatus", "GPU_cw", "GPU_cwb", "SendPackets",
+ "SendGPUStatus", "GPU_cw", "GPU_cwb", "SendPackets",
"sys_a0_4c", "GetGPUStatus", "GPU_sync", "sys_a0_4f",
// 0x50
"sys_a0_50", "LoadExec", "GetSysSp", "sys_a0_53",
"_card_load", "_card_auto", "bufs_cd_4", "sys_a0_af",
// 0xb0
"sys_a0_b0", "sys_a0_b1", "do_a_long_jmp", "sys_a0_b3",
- "?? sub_function",
+ "GetSystemInfo",
};
char *biosB0n[256] = {
#define k1 (psxRegs.GPR.n.k1)
#define gp (psxRegs.GPR.n.gp)
#define sp (psxRegs.GPR.n.sp)
-#define fp (psxRegs.GPR.n.s8)
+#define fp (psxRegs.GPR.n.fp)
#define ra (psxRegs.GPR.n.ra)
#define pc0 (psxRegs.pc)
u32 gp0;
u32 t_addr;
u32 t_size;
- u32 d_addr;
+ u32 d_addr; // 10
u32 d_size;
u32 b_addr;
- u32 b_size;
+ u32 b_size; // 1c
u32 S_addr;
u32 s_size;
u32 _sp, _fp, _gp, ret, base;
u32 mcfile;
} FileDesc;
-static int *pad_buf = NULL;
-static char *pad_buf1 = NULL, *pad_buf2 = NULL;
-static int pad_buf1len, pad_buf2len;
-static int pad_stopped = 0;
-static u32 heap_size = 0;
-static u32 *heap_addr = NULL;
-static u32 *heap_end = NULL;
+// todo: FileDesc layout is wrong
+// todo: get rid of these globals
static FileDesc FDesc[32];
-static u32 card_active_chan = 0;
+static char ffile[64];
+static int nfile;
+static char cdir[8*8+8];
+static u32 floodchk;
// fixed RAM offsets, SCPH1001 compatible
#define A_TT_ExCB 0x0100
#define A_KMALLOC_PTR 0x7460
#define A_KMALLOC_SIZE 0x7464
#define A_KMALLOC_END 0x7468
+#define A_PADCRD_CHN_E 0x74a8 // pad/card irq chain entry, see hleExcPadCard1()
+#define A_PAD_IRQR_ENA 0x74b8 // pad read on vint irq (nocash 'pad_enable_flag')
+#define A_CARD_IRQR_ENA 0x74bc // same for card
+#define A_PAD_INBUF 0x74c8 // 2x buffers for rx pad data
+#define A_PAD_OUTBUF 0x74d0 // 2x buffers for tx pad data
+#define A_PAD_IN_LEN 0x74d8
+#define A_PAD_OUT_LEN 0x74e0
+#define A_PAD_DR_DST 0x74c4
+#define A_CARD_CHAN1 0x7500
+#define A_PAD_DR_BUF1 0x7570
+#define A_PAD_DR_BUF2 0x7598
#define A_EEXIT_PTR 0x75d0
#define A_EXC_STACK 0x85d8 // exception stack top
#define A_RCNT_VBL_ACK 0x8600
+#define A_PAD_ACK_VBL 0x8914 // enable vint ack by pad reading code
+#define A_HEAP_BASE 0x9000
+#define A_HEAP_SIZE 0x9004
+#define A_HEAP_END 0x9008
+#define A_HEAP_INIT_FLG 0x900c
+#define A_RND_SEED 0x9010
+#define A_HEAP_FRSTCHNK 0xb060
+#define A_HEAP_CURCHNK 0xb064
+#define A_CONF_TCB 0xb940
+#define A_CONF_EvCB 0xb944
+#define A_CONF_SP 0xb948
#define A_CD_EVENTS 0xb9b8
#define A_EXC_GP 0xf450
+#define A_A0_DUMMY 0x1010
+#define A_B0_DUMMY 0x2010
+#define A_C0_DUMMY 0x3010
+#define A_B0_5B_DUMMY 0x43d0
+
#define HLEOP(n) SWAPu32((0x3b << 26) | (n));
+static u8 loadRam8(u32 addr)
+{
+ assert(!(addr & 0x5f800000));
+ return psxM[addr & 0x1fffff];
+}
+
static u32 loadRam32(u32 addr)
{
assert(!(addr & 0x5f800000));
return SWAP32(*((u32 *)psxM + ((addr & 0x1fffff) >> 2)));
}
+static void *castRam8ptr(u32 addr)
+{
+ assert(!(addr & 0x5f800000));
+ return psxM + (addr & 0x1fffff);
+}
+
static void *castRam32ptr(u32 addr)
{
assert(!(addr & 0x5f800003));
return psxM + (addr & 0x1ffffc);
}
+static void *loadRam8ptr(u32 addr)
+{
+ return castRam8ptr(loadRam32(addr));
+}
+
static void *loadRam32ptr(u32 addr)
{
return castRam32ptr(loadRam32(addr));
}
+static void storeRam8(u32 addr, u8 d)
+{
+ assert(!(addr & 0x5f800000));
+ *((u8 *)psxM + (addr & 0x1fffff)) = d;
+}
+
static void storeRam32(u32 addr, u32 d)
{
assert(!(addr & 0x5f800000));
pc0 = ra;
}
+static void mips_return_void(void)
+{
+ pc0 = ra;
+}
+
static void use_cycles(u32 cycle)
{
psxRegs.cycle += cycle * 2;
static inline void softCall(u32 pc) {
u32 sra = ra;
u32 ssr = psxRegs.CP0.n.SR;
+ u32 lim = 0;
pc0 = pc;
ra = 0x80001000;
psxRegs.CP0.n.SR &= ~0x404; // disable interrupts
- while (pc0 != 0x80001000)
+ assert(psxRegs.cpuInRecursion <= 1);
+ psxRegs.cpuInRecursion++;
+ psxCpu->Notify(R3000ACPU_NOTIFY_AFTER_LOAD, PTR_1);
+
+ while (pc0 != 0x80001000 && ++lim < 0x100000)
psxCpu->ExecuteBlock(EXEC_CALLER_HLE);
+ psxCpu->Notify(R3000ACPU_NOTIFY_BEFORE_SAVE, PTR_1);
+ psxRegs.cpuInRecursion--;
+
+ if (lim == 0x100000)
+ PSXBIOS_LOG("softCall @%x hit lim\n", pc);
ra = sra;
- psxRegs.CP0.n.SR = ssr;
+ psxRegs.CP0.n.SR |= ssr & 0x404;
}
static inline void softCallInException(u32 pc) {
u32 sra = ra;
+ u32 lim = 0;
pc0 = pc;
+
+ assert(ra != 0x80001000);
+ if (ra == 0x80001000)
+ return;
ra = 0x80001000;
- while (!returned_from_exception() && pc0 != 0x80001000)
+ psxRegs.cpuInRecursion++;
+ psxCpu->Notify(R3000ACPU_NOTIFY_AFTER_LOAD, PTR_1);
+
+ while (!returned_from_exception() && pc0 != 0x80001000 && ++lim < 0x100000)
psxCpu->ExecuteBlock(EXEC_CALLER_HLE);
+ psxCpu->Notify(R3000ACPU_NOTIFY_BEFORE_SAVE, PTR_1);
+ psxRegs.cpuInRecursion--;
+
+ if (lim == 0x100000)
+ PSXBIOS_LOG("softCallInException @%x hit lim\n", pc);
if (pc0 == 0x80001000)
ra = sra;
}
#define buread(Ra1, mcd, length) { \
- SysPrintf("read %d: %x,%x (%s)\n", FDesc[1 + mcd].mcfile, FDesc[1 + mcd].offset, a2, Mcd##mcd##Data + 128 * FDesc[1 + mcd].mcfile + 0xa); \
+ PSXBIOS_LOG("read %d: %x,%x (%s)\n", FDesc[1 + mcd].mcfile, FDesc[1 + mcd].offset, a2, Mcd##mcd##Data + 128 * FDesc[1 + mcd].mcfile + 0xa); \
ptr = Mcd##mcd##Data + 8192 * FDesc[1 + mcd].mcfile + FDesc[1 + mcd].offset; \
memcpy(Ra1, ptr, length); \
+ psxCpu->Clear(a1, (length + 3) / 4); \
if (FDesc[1 + mcd].mode & 0x8000) { \
DeliverEvent(0xf0000011, 0x0004); \
DeliverEvent(0xf4000001, 0x0004); \
#define buwrite(Ra1, mcd, length) { \
u32 offset = + 8192 * FDesc[1 + mcd].mcfile + FDesc[1 + mcd].offset; \
- SysPrintf("write %d: %x,%x\n", FDesc[1 + mcd].mcfile, FDesc[1 + mcd].offset, a2); \
+ PSXBIOS_LOG("write %d: %x,%x\n", FDesc[1 + mcd].mcfile, FDesc[1 + mcd].offset, a2); \
ptr = Mcd##mcd##Data + offset; \
memcpy(ptr, Ra1, length); \
FDesc[1 + mcd].offset += length; \
else v0 = length; \
}
-#ifndef PSXBIOS_LOG
-//#define PSXBIOS_LOG printf
-#define PSXBIOS_LOG(...)
-#endif
-
/* Internally redirects to "FileRead(fd,tempbuf,1)".*/
/* For some strange reason, the returned character is sign-expanded; */
/* So if a return value of FFFFFFFFh could mean either character FFh, or error. */
s32 n = 0, f = 0;
char *p = (char *)Ra0;
+ if (p == INVALID_PTR) {
+ mips_return(0);
+ return;
+ }
+
for (;;p++) {
switch (*p) {
case ' ': case '\t': continue;
v0 = (f ? -n : n);
pc0 = ra;
+ PSXBIOS_LOG("psxBios_%s %s (%x) -> 0x%x\n", biosA0n[0x10], Ra0, a0, v0);
}
void psxBios_atol() { // 0x11
}
void psxBios_strcat() { // 0x15
- char *p1 = (char *)Ra0, *p2 = (char *)Ra1;
+ u8 *p2 = (u8 *)Ra1;
+ u32 p1 = a0;
-#ifdef PSXBIOS_LOG
- PSXBIOS_LOG("psxBios_%s: %s, %s\n", biosA0n[0x15], Ra0, Ra1);
-#endif
- if (a0 == 0 || a1 == 0)
+ PSXBIOS_LOG("psxBios_%s %s (%x), %s (%x)\n", biosA0n[0x15], Ra0, a0, Ra1, a1);
+ if (a0 == 0 || a1 == 0 || p2 == INVALID_PTR)
{
- v0 = 0;
- pc0 = ra;
+ mips_return_c(0, 6);
return;
}
- while (*p1++);
- --p1;
- while ((*p1++ = *p2++) != '\0');
+ while (loadRam8(p1)) {
+ use_cycles(4);
+ p1++;
+ }
+ for (; *p2; p1++, p2++)
+ storeRam8(p1, *p2);
+ storeRam8(p1, 0);
- v0 = a0; pc0 = ra;
+ mips_return_c(a0, 22);
}
void psxBios_strncat() { // 0x16
void psxBios_strcpy() { // 0x19
char *p1 = (char *)Ra0, *p2 = (char *)Ra1;
+ PSXBIOS_LOG("psxBios_%s %x, %s (%x)\n", biosA0n[0x19], a0, p2, a1);
if (a0 == 0 || a1 == 0)
{
v0 = 0;
void psxBios_strstr() { // 0x24
char *p = (char *)Ra0, *p1, *p2;
+ PSXBIOS_LOG("psxBios_%s %s (%x), %s (%x)\n", biosA0n[0x24], p, a0, Ra1, a1);
while (*p != '\0') {
p1 = p;
if (*p2 == '\0') {
v0 = a0 + (p - (char *)Ra0);
pc0 = ra;
+ PSXBIOS_LOG(" -> %x\n", v0);
return;
}
- p++;
+ // bug: skips the whole matched substring + 1
+ p = p1 + 1;
}
v0 = 0; pc0 = ra;
pc0 = ra;
}
-void psxBios_bcopy() { // 0x27
- char *p1 = (char *)Ra1, *p2 = (char *)Ra0;
- v0 = a0;
- if (a0 == 0 || a2 > 0x7FFFFFFF)
- {
- pc0 = ra;
- return;
+static void do_memset(u32 dst, u32 v, s32 len)
+{
+ u32 d = dst;
+ s32 l = len;
+ while (l-- > 0) {
+ u8 *db = PSXM(d);
+ if (db != INVALID_PTR)
+ *db = v;
+ d++;
}
- while ((s32)a2-- > 0) *p1++ = *p2++;
- a2 = 0;
- pc0 = ra;
+ psxCpu->Clear(dst, (len + 3) / 4);
}
-void psxBios_bzero() { // 0x28
- char *p = (char *)Ra0;
- v0 = a0;
- /* Same as memset here (See memset below) */
- if (a1 > 0x7FFFFFFF || a1 == 0)
+static void do_memcpy(u32 dst, u32 src, s32 len)
+{
+ u32 d = dst, s = src;
+ s32 l = len;
+ while (l-- > 0) {
+ const u8 *sb = PSXM(s);
+ u8 *db = PSXM(d);
+ if (db != INVALID_PTR && sb != INVALID_PTR)
+ *db = *sb;
+ d++;
+ s++;
+ }
+ psxCpu->Clear(dst, (len + 3) / 4);
+}
+
+static void psxBios_memcpy();
+
+static void psxBios_bcopy() { // 0x27 - memcpy with args swapped
+ //PSXBIOS_LOG("psxBios_%s %x %x %x\n", biosA0n[0x27], a0, a1, a2);
+ u32 ret = a0, cycles = 0;
+ if (a0 == 0) // ...but it checks src this time
{
- v0 = 0;
- pc0 = ra;
+ mips_return_c(0, 4);
return;
}
- else if (a0 == 0)
+ v1 = a0;
+ if ((s32)a2 > 0) {
+ do_memcpy(a1, a0, a2);
+ cycles = a2 * 6;
+ a0 += a2;
+ a1 += a2;
+ a2 = 0;
+ }
+ mips_return_c(ret, cycles + 5);
+}
+
+static void psxBios_bzero() { // 0x28
+ /* Same as memset here (See memset below) */
+ u32 ret = a0, cycles;
+ if (a0 == 0 || (s32)a1 <= 0)
{
- pc0 = ra;
+ mips_return_c(0, 6);
return;
}
- while ((s32)a1-- > 0) *p++ = '\0';
+ do_memset(a0, 0, a1);
+ cycles = a1 * 4;
+ a0 += a1;
a1 = 0;
- pc0 = ra;
+ // todo: many more cycles due to uncached bios mem
+ mips_return_c(ret, cycles + 5);
}
void psxBios_bcmp() { // 0x29
v0 = 0; pc0 = ra;
}
-void psxBios_memcpy() { // 0x2a
- char *p1 = (char *)Ra0, *p2 = (char *)Ra1;
- v0 = a0;
- if (a0 == 0 || a2 > 0x7FFFFFFF)
+static void psxBios_memcpy() { // 0x2a
+ u32 ret = a0, cycles = 0;
+ if (a0 == 0)
{
- pc0 = ra;
+ mips_return_c(0, 4);
return;
}
- while ((s32)a2-- > 0) {
- *p1++ = *p2++;
+ v1 = a0;
+ if ((s32)a2 > 0) {
+ do_memcpy(a0, a1, a2);
+ cycles = a2 * 6;
+ a0 += a2;
+ a1 += a2;
+ a2 = 0;
}
- a2 = 0;
- pc0 = ra;
+ mips_return_c(ret, cycles + 5);
}
-void psxBios_memset() { // 0x2b
- char *p = (char *)Ra0;
- v0 = a0;
- if (a2 > 0x7FFFFFFF || a2 == 0)
+static void psxBios_memset() { // 0x2b
+ u32 ret = a0, cycles;
+ if (a0 == 0 || (s32)a2 <= 0)
{
- v0 = 0;
- pc0 = ra;
- return;
- }
- if (a0 == 0)
- {
- pc0 = ra;
+ mips_return_c(0, 6);
return;
}
- while ((s32)a2-- > 0) *p++ = (char)a1;
+ do_memset(a0, a1, a2);
+ cycles = a2 * 4;
+ a0 += a2;
a2 = 0;
- v0 = a0; pc0 = ra;
+ // todo: many more cycles due to uncached bios mem
+ mips_return_c(ret, cycles + 5);
}
void psxBios_memmove() { // 0x2c
- char *p1 = (char *)Ra0, *p2 = (char *)Ra1;
- v0 = a0;
- if (a0 == 0 || a2 > 0x7FFFFFFF)
+ u32 ret = a0, cycles = 0;
+ if (a0 == 0)
{
- pc0 = ra;
+ mips_return_c(0, 4);
return;
}
- if (p2 <= p1 && p2 + a2 > p1) {
- a2++; // BUG: copy one more byte here
- p1 += a2;
- p2 += a2;
- while ((s32)a2-- > 0) *--p1 = *--p2;
- } else {
- while ((s32)a2-- > 0) *p1++ = *p2++;
+ v1 = a0;
+ if ((s32)a2 > 0 && a0 > a1 && a0 < a1 + a2) {
+ u32 dst = a0, len = a2 + 1;
+ a0 += a2;
+ a1 += a2;
+ while ((s32)a2 >= 0) { // BUG: copies one more byte here
+ const u8 *sb = PSXM(a1);
+ u8 *db = PSXM(a0);
+ if (db != INVALID_PTR && sb != INVALID_PTR)
+ *db = *sb;
+ a0--;
+ a1--;
+ a2--;
+ }
+ psxCpu->Clear(dst, (len + 3) / 4);
+ cycles = 10 + len * 8;
+ } else if ((s32)a2 > 0) {
+ do_memcpy(a0, a1, a2);
+ cycles = a2 * 6;
+ a0 += a2;
+ a1 += a2;
+ a2 = 0;
}
- pc0 = ra;
+ mips_return_c(ret, cycles + 5);
}
void psxBios_memcmp() { // 0x2d
v0 = 0; pc0 = ra;
}
-void psxBios_rand() { // 0x2f
- u32 s = psxMu32(0x9010) * 1103515245 + 12345;
- v0 = (s >> 16) & 0x7fff;
- psxMu32ref(0x9010) = SWAPu32(s);
- pc0 = ra;
+static void psxBios_rand() { // 0x2f
+ u32 s = loadRam32(A_RND_SEED) * 1103515245 + 12345;
+ storeRam32(A_RND_SEED, s);
+ v1 = s;
+ mips_return_c((s >> 16) & 0x7fff, 12+37);
}
-void psxBios_srand() { // 0x30
- psxMu32ref(0x9010) = SWAPu32(a0);
- pc0 = ra;
+static void psxBios_srand() { // 0x30
+ storeRam32(A_RND_SEED, a0);
+ mips_return_void_c(3);
}
static u32 qscmpfunc, qswidth;
pc0 = ra;
}
-void psxBios_malloc() { // 0x33
- u32 *chunk, *newchunk = NULL;
- unsigned int dsize = 0, csize, cstat;
- int colflag;
-#ifdef PSXBIOS_LOG
- PSXBIOS_LOG("psxBios_%s\n", biosA0n[0x33]);
-#endif
- if (!a0 || (!heap_size || !heap_addr)) {
- v0 = 0;
- pc0 = ra;
- return;
- }
+static int malloc_heap_grow(u32 size) {
+ u32 heap_addr, heap_end, heap_addr_new;
- // scan through heap and combine free chunks of space
- chunk = heap_addr;
- colflag = 0;
- while(chunk < heap_end) {
- // get size and status of actual chunk
- csize = ((u32)*chunk) & 0xfffffffc;
- cstat = ((u32)*chunk) & 1;
-
- // most probably broken heap descriptor
- // this fixes Burning Road
- if (*chunk == 0) {
- newchunk = chunk;
- dsize = ((uptr)heap_end - (uptr)chunk) - 4;
- colflag = 1;
- break;
+ heap_addr = loadRam32(A_HEAP_BASE);
+ heap_end = loadRam32(A_HEAP_END);
+ heap_addr_new = heap_addr + 4 + size;
+ if (heap_addr_new >= heap_end)
+ return -1;
+ storeRam32(A_HEAP_BASE, heap_addr_new);
+ storeRam32(heap_addr - 4, size | 1);
+ storeRam32(heap_addr + size, ~1); // terminator
+ return 0;
+}
+
+static void psxBios_malloc() { // 0x33
+ u32 size = (a0 + 3) & ~3;
+ u32 limit = 32*1024;
+ u32 tries = 2, i;
+ u32 ret;
+
+ PSXBIOS_LOG("psxBios_%s %d\n", biosA0n[0x33], a0);
+
+ if (!loadRam32(A_HEAP_INIT_FLG)) {
+ u32 heap_addr = loadRam32(A_HEAP_BASE);
+ storeRam32(heap_addr, ~1);
+ storeRam32(A_HEAP_FRSTCHNK, heap_addr);
+ storeRam32(A_HEAP_CURCHNK, heap_addr);
+ storeRam32(A_HEAP_BASE, heap_addr + 4);
+ if (malloc_heap_grow(size)) {
+ PSXBIOS_LOG("malloc: init OOM\n");
+ mips_return_c(0, 20);
+ return;
}
+ storeRam32(A_HEAP_INIT_FLG, 1);
+ }
- // it's a free chunk
- if(cstat == 1) {
- if(colflag == 0) {
- newchunk = chunk;
- dsize = csize;
- colflag = 1; // let's begin a new collection of free memory
+ for (i = 0; tries > 0 && i < limit; i++)
+ {
+ u32 chunk = loadRam32(A_HEAP_CURCHNK);
+ u32 chunk_hdr = loadRam32(chunk);
+ u32 next_chunk = chunk + 4 + (chunk_hdr & ~3);
+ u32 next_chunk_hdr = loadRam32(next_chunk);
+ use_cycles(20);
+ //printf(" c %08x %08x\n", chunk, chunk_hdr);
+ if (chunk_hdr & 1) {
+ // free chunk
+ if (chunk_hdr > (size | 1)) {
+ // split
+ u32 p2size = (chunk_hdr & ~3) - size - 4;
+ storeRam32(chunk + 4 + size, p2size | 1);
+ chunk_hdr = size | 1;
+ }
+ if (chunk_hdr == (size | 1)) {
+ storeRam32(chunk, size);
+ break;
+ }
+ // chunk too small
+ if (next_chunk_hdr & 1) {
+ // merge
+ u32 msize = (chunk_hdr & ~3) + 4 + (next_chunk_hdr & ~3);
+ storeRam32(chunk, msize | 1);
+ continue;
}
- else dsize += (csize+4); // add the new size including header
}
- // not a free chunk: did we start a collection ?
+ if (chunk_hdr == ~1) {
+ // last chunk
+ if (tries == 2)
+ storeRam32(A_HEAP_CURCHNK, loadRam32(A_HEAP_FRSTCHNK));
+ tries--;
+ }
else {
- if(colflag == 1) { // collection is over
- colflag = 0;
- *newchunk = SWAP32(dsize | 1);
- }
+ // go to the next chunk
+ storeRam32(A_HEAP_CURCHNK, next_chunk);
}
-
- // next chunk
- chunk = (u32*)((uptr)chunk + csize + 4);
- }
- // if neccessary free memory on end of heap
- if (colflag == 1)
- *newchunk = SWAP32(dsize | 1);
-
- chunk = heap_addr;
- csize = ((u32)*chunk) & 0xfffffffc;
- cstat = ((u32)*chunk) & 1;
- dsize = (a0 + 3) & 0xfffffffc;
-
- // exit on uninitialized heap
- if (chunk == NULL) {
- printf("malloc %x,%x: Uninitialized Heap!\n", v0, a0);
- v0 = 0;
- pc0 = ra;
- return;
- }
-
- // search an unused chunk that is big enough until the end of the heap
- while ((dsize > csize || cstat==0) && chunk < heap_end ) {
- chunk = (u32*)((uptr)chunk + csize + 4);
-
- // catch out of memory
- if(chunk >= heap_end) {
- printf("malloc %x,%x: Out of memory error!\n",
- v0, a0);
- v0 = 0; pc0 = ra;
- return;
- }
-
- csize = ((u32)*chunk) & 0xfffffffc;
- cstat = ((u32)*chunk) & 1;
}
- // allocate memory
- if(dsize == csize) {
- // chunk has same size
- *chunk &= 0xfffffffc;
- } else if (dsize > csize) {
- v0 = 0; pc0 = ra;
- return;
- } else {
- // split free chunk
- *chunk = SWAP32(dsize);
- newchunk = (u32*)((uptr)chunk + dsize + 4);
- *newchunk = SWAP32(((csize - dsize - 4) & 0xfffffffc) | 1);
+ if (i == limit)
+ ret = 0;
+ else if (tries == 0 && malloc_heap_grow(size))
+ ret = 0;
+ else {
+ u32 chunk = loadRam32(A_HEAP_CURCHNK);
+ storeRam32(chunk, loadRam32(chunk) & ~3);
+ ret = chunk + 4;
}
- // return pointer to allocated memory
- v0 = ((uptr)chunk - (uptr)psxM) + 4;
- v0|= 0x80000000;
- //printf ("malloc %x,%x\n", v0, a0);
- pc0 = ra;
+ PSXBIOS_LOG(" -> %08x\n", ret);
+ mips_return_c(ret, 40);
}
-void psxBios_free() { // 0x34
-
-#ifdef PSXBIOS_LOG
- PSXBIOS_LOG("psxBios_%s\n", biosA0n[0x34]);
-#endif
-
- SysPrintf("free %x: %x bytes\n", a0, *(u32*)(Ra0-4));
-
- if (a0)
- *(u32*)(Ra0-4) |= 1; // set chunk to free
- pc0 = ra;
+static void psxBios_free() { // 0x34
+ PSXBIOS_LOG("psxBios_%s %x (%d bytes)\n", biosA0n[0x34], a0, loadRam32(a0 - 4));
+ storeRam32(a0 - 4, loadRam32(a0 - 4) | 1); // set chunk to free
+ mips_return_void_c(5);
}
-void psxBios_calloc() { // 0x37
- void *pv0;
-#ifdef PSXBIOS_LOG
- PSXBIOS_LOG("psxBios_%s\n", biosA0n[0x37]);
-#endif
+static void psxBios_calloc() { // 0x37
+ u32 ret, size;
+ PSXBIOS_LOG("psxBios_%s %x %x\n", biosA0n[0x37], a0, a1);
- a0 = a0 * a1;
+ a0 = size = a0 * a1;
psxBios_malloc();
- pv0 = Rv0;
- if (pv0)
- memset(pv0, 0, a0);
+ ret = v0;
+ if (ret) {
+ a0 = ret; a1 = size;
+ psxBios_bzero();
+ }
+ mips_return_c(ret, 21);
}
void psxBios_realloc() { // 0x38
/* InitHeap(void *block , int n) */
-void psxBios_InitHeap() { // 0x39
- unsigned int size;
-
-#ifdef PSXBIOS_LOG
- PSXBIOS_LOG("psxBios_%s\n", biosA0n[0x39]);
-#endif
+static void psxBios_InitHeap() { // 0x39
+ PSXBIOS_LOG("psxBios_%s %x %x\n", biosA0n[0x39], a0, a1);
- if (((a0 & 0x1fffff) + a1)>= 0x200000) size = 0x1ffffc - (a0 & 0x1fffff);
- else size = a1;
+ storeRam32(A_HEAP_BASE, a0);
+ storeRam32(A_HEAP_SIZE, a1);
+ storeRam32(A_HEAP_END, a0 + (a1 & ~3) + 4);
+ storeRam32(A_HEAP_INIT_FLG, 0);
+ storeRam32(a0, 0);
- size &= 0xfffffffc;
-
- heap_addr = (u32 *)Ra0;
- heap_size = size;
- heap_end = (u32 *)((u8 *)heap_addr + heap_size);
- /* HACKFIX: Commenting out this line fixes GTA2 crash */
- //*heap_addr = SWAP32(size | 1);
-
- SysPrintf("InitHeap %x,%x : %x %x\n",a0,a1, (int)((uptr)heap_addr-(uptr)psxM), size);
-
- pc0 = ra;
+ mips_return_void_c(14);
}
void psxBios_getchar() { //0x3b
static void psxBios_printf_psxout() { // 0x3f
char tmp[1024];
char tmp2[1024];
- u32 save[4];
+ u32 save[4] = { 0, };
char *ptmp = tmp;
int n=1, i=0, j;
void *psp;
if (psp != INVALID_PTR)
memcpy(psp, save, 4 * 4);
- SysPrintf("%s", tmp);
+ if (Config.PsxOut)
+ SysPrintf("%s", tmp);
}
void psxBios_printf() { // 0x3f
pc0 = ra;
}
-void psxBios_format() { // 0x41
+static void psxBios_cd() { // 0x40
+ const char *p, *dir = castRam8ptr(a0);
+ PSXBIOS_LOG("psxBios_%s %x(%s)\n", biosB0n[0x40], a0, dir);
+ if ((p = strchr(dir, ':')))
+ dir = ++p;
+ if (*dir == '\\')
+ dir++;
+ snprintf(cdir, sizeof(cdir), "%s", dir);
+ mips_return_c(1, 100);
+}
+
+static void psxBios_format() { // 0x41
+ PSXBIOS_LOG("psxBios_%s %x(%s)\n", biosB0n[0x41], a0, Ra0);
if (strcmp(Ra0, "bu00:") == 0 && Config.Mcd1[0] != '\0')
{
CreateMcd(Config.Mcd1);
}
static void psxBios_SystemErrorUnresolvedException() {
- if (loadRam32(0xfffc) != 0x12345678) { // prevent log flood
- SysPrintf("psxBios_%s\n", biosA0n[0x40]);
- storeRam32(0xfffc, 0x12345678);
+ if (floodchk != 0x12340a40) { // prevent log flood
+ SysPrintf("psxBios_%s called from %08x\n", biosA0n[0x40], ra);
+ floodchk = 0x12340a40;
}
mips_return_void_c(1000);
}
+static void FlushCache() {
+ psxCpu->Notify(R3000ACPU_NOTIFY_CACHE_ISOLATED, NULL);
+ psxCpu->Notify(R3000ACPU_NOTIFY_CACHE_UNISOLATED, NULL);
+ k0 = 0xbfc0193c;
+ // runs from uncached mem so tons of cycles
+ use_cycles(500);
+}
+
/*
* long Load(char *name, struct EXEC *header);
*/
void psxBios_Load() { // 0x42
EXE_HEADER eheader;
+ char path[256];
+ char *pa0, *p;
void *pa1;
+ pa0 = Ra0;
pa1 = Ra1;
- if (pa1 && LoadCdromFile(Ra0, &eheader) == 0) {
+ PSXBIOS_LOG("psxBios_%s %x(%s), %x\n", biosA0n[0x42], a0, pa0, a1);
+ if (pa0 == INVALID_PTR || pa1 == INVALID_PTR) {
+ mips_return(0);
+ return;
+ }
+ if ((p = strchr(pa0, ':')))
+ pa0 = ++p;
+ if (*pa0 == '\\')
+ pa0++;
+ if (cdir[0])
+ snprintf(path, sizeof(path), "%s\\%s", cdir, (char *)pa0);
+ else
+ snprintf(path, sizeof(path), "%s", (char *)pa0);
+
+ if (LoadCdromFile(path, &eheader) == 0) {
memcpy(pa1, ((char*)&eheader)+16, sizeof(EXEC));
+ psxCpu->Clear(a1, sizeof(EXEC) / 4);
+ FlushCache();
v0 = 1;
} else v0 = 0;
- PSXBIOS_LOG("psxBios_%s: %s, %d -> %d\n", biosA0n[0x42], Ra0, a1, v0);
+ PSXBIOS_LOG(" -> %d\n", v0);
pc0 = ra;
}
*/
void psxBios_Exec() { // 43
- EXEC *header = (EXEC*)Ra0;
- u32 tmp;
+ EXEC *header = (EXEC *)castRam32ptr(a0);
+ u32 ptr;
+ s32 len;
-#ifdef PSXBIOS_LOG
PSXBIOS_LOG("psxBios_%s: %x, %x, %x\n", biosA0n[0x43], a0, a1, a2);
-#endif
- header->_sp = sp;
- header->_fp = fp;
- header->_sp = sp;
- header->_gp = gp;
- header->ret = ra;
- header->base = s0;
+ header->_sp = SWAP32(sp);
+ header->_fp = SWAP32(fp);
+ header->_sp = SWAP32(sp);
+ header->_gp = SWAP32(gp);
+ header->ret = SWAP32(ra);
+ header->base = SWAP32(s0);
- if (header->S_addr != 0) {
- tmp = header->S_addr + header->s_size;
- sp = tmp;
- fp = sp;
- }
+ ptr = SWAP32(header->b_addr);
+ len = SWAP32(header->b_size);
+ if (len != 0) do {
+ storeRam32(ptr, 0);
+ len -= 4; ptr += 4;
+ } while (len > 0);
- gp = header->gp0;
+ if (header->S_addr != 0)
+ sp = fp = SWAP32(header->S_addr) + SWAP32(header->s_size);
+
+ gp = SWAP32(header->gp0);
s0 = a0;
a1 = a2;
ra = 0x8000;
- pc0 = header->_pc0;
+ pc0 = SWAP32(header->_pc0);
}
-void psxBios_FlushCache() { // 44
-#ifdef PSXBIOS_LOG
+static void psxBios_FlushCache() { // 44
PSXBIOS_LOG("psxBios_%s\n", biosA0n[0x44]);
-#endif
- psxCpu->Notify(R3000ACPU_NOTIFY_CACHE_ISOLATED, NULL);
- psxCpu->Notify(R3000ACPU_NOTIFY_CACHE_UNISOLATED, NULL);
- pc0 = ra;
+ FlushCache();
+ mips_return_void();
}
void psxBios_GPU_dw() { // 0x46
void psxBios_mem2vram() { // 0x47
int size;
- gpuSyncPluginSR();
+ gpuSyncPluginSR(); // flush
GPU_writeData(0xa0000000);
GPU_writeData((a1<<0x10)|(a0&0xffff));
GPU_writeData((a3<<0x10)|(a2&0xffff));
}
void psxBios_GPU_cw() { // 0x49
- gpuSyncPluginSR();
GPU_writeData(a0);
+ gpuSyncPluginSR();
v0 = HW_GPU_STATUS;
pc0 = ra;
}
pc0 = ra;
}
-static void psxBios_SysDeqIntRP_();
+static void write_chain(u32 *d, u32 next, u32 handler1, u32 handler2);
+static void psxBios_SysEnqIntRP_(u32 priority, u32 chain_eptr);
+static void psxBios_SysDeqIntRP_(u32 priority, u32 chain_rm_eptr);
static void psxBios_DequeueCdIntr_() {
- a0 = 0; a1 = 0x91d0;
- psxBios_SysDeqIntRP_();
- a0 = 0; a1 = 0x91e0;
- psxBios_SysDeqIntRP_();
+ psxBios_SysDeqIntRP_(0, 0x91d0);
+ psxBios_SysDeqIntRP_(0, 0x91e0);
use_cycles(16);
}
use_cycles(30);
}
+static void setup_tt(u32 tcb_cnt, u32 evcb_cnt, u32 stack);
+
+static void psxBios_SetConf() { // 9c
+ PSXBIOS_LOG("psxBios_%s %x %x %x\n", biosA0n[0x9c], a0, a1, a2);
+ setup_tt(a1, a0, a2);
+ psxRegs.CP0.n.SR |= 0x401;
+ mips_return_void_c(500);
+}
+
+static void psxBios_GetConf() { // 9d
+ PSXBIOS_LOG("psxBios_%s %x %x %x\n", biosA0n[0x9d], a0, a1, a2);
+ storeRam32(a0, loadRam32(A_CONF_EvCB));
+ storeRam32(a1, loadRam32(A_CONF_TCB));
+ storeRam32(a2, loadRam32(A_CONF_SP));
+ mips_return_void_c(10);
+}
+
void psxBios_SetMem() { // 9f
u32 new = psxHu32(0x1060);
case 2:
psxHu32ref(0x1060) = SWAP32(new);
psxMu32ref(0x060) = a0;
- SysPrintf("Change effective memory : %d MBytes\n",a0);
+ PSXBIOS_LOG("Change effective memory : %d MBytes\n",a0);
break;
case 8:
psxHu32ref(0x1060) = SWAP32(new | 0x300);
psxMu32ref(0x060) = a0;
- SysPrintf("Change effective memory : %d MBytes\n",a0);
+ PSXBIOS_LOG("Change effective memory : %d MBytes\n",a0);
default:
- SysPrintf("Effective memory must be 2/8 MBytes\n");
+ PSXBIOS_LOG("Effective memory must be 2/8 MBytes\n");
break;
}
}
/* TODO FIXME : Not compliant. -1 indicates failure but using 1 for now. */
-void psxBios_get_cd_status(void) //a6
+static void psxBios_get_cd_status() // a6
{
+ PSXBIOS_LOG("psxBios_%s\n", biosA0n[0xa6]);
v0 = 1;
pc0 = ra;
}
-void psxBios__card_info() { // ab
-#ifdef PSXBIOS_LOG
+static void psxBios__card_info() { // ab
PSXBIOS_LOG("psxBios_%s: %x\n", biosA0n[0xab], a0);
-#endif
u32 ret, port;
- card_active_chan = a0;
- port = card_active_chan >> 4;
+ storeRam32(A_CARD_CHAN1, a0);
+ port = a0 >> 4;
switch (port) {
case 0x0:
ret = 0x0100;
break;
default:
-#ifdef PSXBIOS_LOG
- PSXBIOS_LOG("psxBios_%s: UNKNOWN PORT 0x%x\n", biosA0n[0xab], card_active_chan);
-#endif
+ PSXBIOS_LOG("psxBios_%s: UNKNOWN PORT 0x%x\n", biosA0n[0xab], a0);
ret = 0x0302;
break;
}
PSXBIOS_LOG("psxBios_%s: %x\n", biosA0n[0xac], a0);
#endif
- card_active_chan = a0;
+ storeRam32(A_CARD_CHAN1, a0);
// DeliverEvent(0xf0000011, 0x0004);
DeliverEvent(0xf4000001, 0x0004);
v0 = 1; pc0 = ra;
}
+static void psxBios_GetSystemInfo() { // b4
+ u32 ret = 0;
+ //PSXBIOS_LOG("psxBios_%s %x\n", biosA0n[0xb4], a0);
+ SysPrintf("psxBios_%s %x\n", biosA0n[0xb4], a0);
+ switch (a0) {
+ case 0:
+ case 1: ret = SWAP32(((u32 *)psxR)[0x100/4 + a0]); break;
+ case 2: ret = 0xbfc0012c; break;
+ case 5: ret = loadRam32(0x60) << 10; break;
+ }
+ mips_return_c(ret, 20);
+}
+
/* System calls B0 */
static u32 psxBios_SysMalloc_(u32 size);
PSXBIOS_LOG("psxBios_%s\n", biosB0n[0x03]);
#endif
- a0&= 0x3;
- if (a0 != 3) v0 = psxRcntRcount(a0);
- else v0 = 0;
+ switch (a0 & 0x3)
+ {
+ case 0: v0 = psxRcntRcount0(); break;
+ case 1: v0 = psxRcntRcount1(); break;
+ case 2: v0 = psxRcntRcount2(); break;
+ case 3: v0 = 0; break;
+ }
pc0 = ra;
}
u32 ret = loadRam32(A_TT_EvCB) + evcb_len;
u32 i, lim = evcb_len / 0x1c;
+ //printf("%s %08x %x\n", __func__, class, spec);
for (i = 0; i < lim; i++, ev++) {
use_cycles(8);
if (SWAP32(ev->status) != EvStACTIVE)
}
}
}
+ floodchk = 0;
use_cycles(29);
return ret;
}
u32 base = loadRam32(A_TT_EvCB);
u32 status = loadRam32(base + (a0 & 0xffff) * sizeof(EvCB) + 4);
u32 ret = 0;
- PSXBIOS_LOG("psxBios_%s %x %x\n", biosB0n[0x0b], a0, status);
+
+ if (psxRegs.cycle - floodchk > 16*1024u) { // prevent log flood
+ PSXBIOS_LOG("psxBios_%s %x %x\n", biosB0n[0x0b], a0, status);
+ floodchk = psxRegs.cycle;
+ }
if (status == EvStALREADY) {
storeRam32(base + (a0 & 0xffff) * sizeof(EvCB) + 4, EvStACTIVE);
ret = 1;
mips_return_c(0xffffffff, 20);
return;
}
- PSXBIOS_LOG("psxBios_%s: %x\n", biosB0n[0x0e], th);
+ PSXBIOS_LOG("psxBios_%s -> %x\n", biosB0n[0x0e], 0xff000000 + th);
tcb[th].status = SWAP32(0x4000);
tcb[th].mode = SWAP32(0x1000);
* int CloseTh(long thread);
*/
-void psxBios_CloseTh() { // 0f
- TCB *tcb = loadRam32ptr(A_TT_TCB);
- u32 limit = loadRam32(A_TT_TCB + 4) / 0xc0u;
- u32 th = a0 & 0xff;
+static void psxBios_CloseTh() { // 0f
+ u32 tcb = loadRam32(A_TT_TCB);
+ u32 th = a0 & 0xffff;
-#ifdef PSXBIOS_LOG
- PSXBIOS_LOG("psxBios_%s: %x\n", biosB0n[0x0f], th);
-#endif
- /* The return value is always 1 (even if the handle was already closed). */
- v0 = 1;
- if (th < limit && tcb[th].status == SWAP32(0x4000)) {
- tcb[th].status = SWAP32(0x1000);
- }
+ PSXBIOS_LOG("psxBios_%s %x\n", biosB0n[0x0f], a0);
+ // in the usual bios fashion no checks, just write and return 1
+ storeRam32(tcb + th * sizeof(TCB), 0x1000);
- pc0 = ra;
+ mips_return_c(1, 11);
}
/*
u32 tcbBase = loadRam32(A_TT_TCB);
u32 th = a0 & 0xffff;
-#ifdef PSXBIOS_LOG
-// PSXBIOS_LOG("psxBios_%s: %x\n", biosB0n[0x10], th);
-#endif
+ // this is quite spammy
+ //PSXBIOS_LOG("psxBios_%s %x\n", biosB0n[0x10], th);
+
// without doing any argument checks, just issue a syscall
// (like the real bios does)
a0 = 3;
}
void psxBios_InitPAD() { // 0x12
-#ifdef PSXBIOS_LOG
- PSXBIOS_LOG("psxBios_%s\n", biosB0n[0x12]);
-#endif
+ u32 i, *ram32 = (u32 *)psxM;
+ PSXBIOS_LOG("psxBios_%s %x %x %x %x\n", biosB0n[0x12], a0, a1, a2, a3);
+
+ // printf("%s", "PS-X Control PAD Driver Ver 3.0");
+ ram32[A_PAD_DR_DST/4] = 0;
+ ram32[A_PAD_OUTBUF/4 + 0] = 0;
+ ram32[A_PAD_OUTBUF/4 + 1] = 0;
+ ram32[A_PAD_OUT_LEN/4 + 0] = 0;
+ ram32[A_PAD_OUT_LEN/4 + 1] = 0;
+ ram32[A_PAD_INBUF/4 + 0] = SWAP32(a0);
+ ram32[A_PAD_INBUF/4 + 1] = SWAP32(a2);
+ ram32[A_PAD_IN_LEN/4 + 0] = SWAP32(a1);
+ ram32[A_PAD_IN_LEN/4 + 1] = SWAP32(a3);
+
+ for (i = 0; i < a1; i++) {
+ use_cycles(4);
+ storeRam8(a0 + i, 0);
+ }
+ for (i = 0; i < a3; i++) {
+ use_cycles(4);
+ storeRam8(a2 + i, 0);
+ }
+ write_chain(ram32 + A_PADCRD_CHN_E/4, 0, 0x49bc, 0x4a4c);
- pad_buf1 = (char*)Ra0;
- pad_buf1len = a1;
- pad_buf2 = (char*)Ra2;
- pad_buf2len = a3;
+ ram32[A_PAD_IRQR_ENA/4] = SWAP32(1);
- v0 = 1; pc0 = ra;
+ mips_return_c(1, 200);
}
void psxBios_StartPAD() { // 13
-#ifdef PSXBIOS_LOG
PSXBIOS_LOG("psxBios_%s\n", biosB0n[0x13]);
-#endif
- pad_stopped = 0;
- psxHwWrite16(0x1f801074, (unsigned short)(psxHwRead16(0x1f801074) | 0x1));
+
+ psxBios_SysDeqIntRP_(2, A_PADCRD_CHN_E);
+ psxBios_SysEnqIntRP_(2, A_PADCRD_CHN_E);
+ psxHwWrite16(0x1f801070, ~1);
+ psxHwWrite16(0x1f801074, psxHu32(0x1074) | 1);
+ storeRam32(A_PAD_ACK_VBL, 1);
+ storeRam32(A_RCNT_VBL_ACK + (3 << 2), 0);
psxRegs.CP0.n.SR |= 0x401;
- pc0 = ra;
+
+ mips_return_c(1, 300);
}
void psxBios_StopPAD() { // 14
-#ifdef PSXBIOS_LOG
PSXBIOS_LOG("psxBios_%s\n", biosB0n[0x14]);
-#endif
- pad_stopped = 1;
- pad_buf1 = NULL;
- pad_buf2 = NULL;
- pc0 = ra;
+ storeRam32(A_RCNT_VBL_ACK + (3 << 2), 1);
+ psxBios_SysDeqIntRP_(2, A_PADCRD_CHN_E);
+ psxRegs.CP0.n.SR |= 0x401;
+ mips_return_void_c(200);
}
-void psxBios_PAD_init() { // 15
-#ifdef PSXBIOS_LOG
+static void psxBios_PAD_init() { // 15
+ u32 ret = 0;
PSXBIOS_LOG("psxBios_%s\n", biosB0n[0x15]);
-#endif
- if (!(a0 == 0x20000000 || a0 == 0x20000001))
+ if (a0 == 0x20000000 || a0 == 0x20000001)
{
- v0 = 0;
- pc0 = ra;
- return;
+ u32 dst = a1;
+ a0 = A_PAD_DR_BUF1; a1 = 0x22;
+ a2 = A_PAD_DR_BUF2; a3 = 0x22;
+ psxBios_InitPAD();
+ psxBios_StartPAD();
+ storeRam32(A_PAD_DR_DST, dst);
+ ret = 2;
}
- psxHwWrite16(0x1f801074, (u16)(psxHwRead16(0x1f801074) | 0x1));
- pad_buf = (int *)Ra1;
- *pad_buf = -1;
- psxRegs.CP0.n.SR |= 0x401;
- v0 = 2;
- pc0 = ra;
+ mips_return_c(ret, 100);
}
-void psxBios_PAD_dr() { // 16
-#ifdef PSXBIOS_LOG
- PSXBIOS_LOG("psxBios_%s\n", biosB0n[0x16]);
-#endif
+static u32 psxBios_PAD_dr_() {
+ u8 *dst = loadRam32ptr(A_PAD_DR_DST);
+ u8 *buf1 = castRam8ptr(A_PAD_DR_BUF1);
+ u8 *buf2 = castRam8ptr(A_PAD_DR_BUF2);
+ dst[0] = dst[1] = dst[2] = dst[3] = ~0;
+ if (buf1[0] == 0 && (buf1[1] == 0x23 || buf1[1] == 0x41))
+ {
+ dst[0] = buf1[3], dst[1] = buf1[2];
+ if (buf1[1] == 0x23) {
+ dst[0] |= 0xc7, dst[1] |= 7;
+ if (buf1[5] >= 0x10) dst[0] &= ~(1u << 6);
+ if (buf1[6] >= 0x10) dst[0] &= ~(1u << 7);
+ }
+ }
+ if (buf2[0] == 0 && (buf2[1] == 0x23 || buf2[1] == 0x41))
+ {
+ dst[2] = buf2[3], dst[3] = buf2[2];
+ if (buf2[1] == 0x23) {
+ dst[2] |= 0xc7, dst[3] |= 7;
+ if (buf2[5] >= 0x10) dst[2] &= ~(1u << 6);
+ if (buf2[6] >= 0x10) dst[2] &= ~(1u << 7);
+ }
+ }
+ use_cycles(55);
+ return SWAP32(*(u32 *)dst);
+}
- v0 = -1; pc0 = ra;
+static void psxBios_PAD_dr() { // 16
+ PSXBIOS_LOG("psxBios_%s\n", biosB0n[0x16]);
+ u32 ret = psxBios_PAD_dr_();
+ mips_return(ret);
}
static void psxBios_ReturnFromException() { // 17
u32 tcbPtr = loadRam32(A_TT_PCB);
const TCB *tcb = loadRam32ptr(tcbPtr);
+ u32 sr;
int i;
for (i = 1; i < 32; i++)
psxRegs.GPR.r[i] = SWAP32(tcb->reg[i]);
psxRegs.GPR.n.lo = SWAP32(tcb->lo);
psxRegs.GPR.n.hi = SWAP32(tcb->hi);
- psxRegs.CP0.n.SR = SWAP32(tcb->sr);
+ sr = SWAP32(tcb->sr);
//printf("%s %08x->%08x %u\n", __func__, pc0, tcb->epc, psxRegs.cycle);
pc0 = k0 = SWAP32(tcb->epc);
- psxRegs.CP0.n.SR = (psxRegs.CP0.n.SR & ~0x0f) | ((psxRegs.CP0.n.SR & 0x3c) >> 2);
+ // the interpreter wants to know about sr changes, so do a MTC0
+ sr = (sr & ~0x0f) | ((sr & 0x3c) >> 2);
+ MTC0(&psxRegs, 12, sr);
+
use_cycles(53);
psxBranchTest();
}
mips_return(ret);
}
-char ffile[64], *pfile;
-int nfile;
-
static void buopen(int mcd, char *ptr, char *cfg)
{
int i;
if ((*fptr & 0xF0) != 0x50) continue;
if (strcmp(FDesc[1 + mcd].name, fptr+0xa)) continue;
FDesc[1 + mcd].mcfile = i;
- SysPrintf("open %s\n", fptr+0xa);
+ PSXBIOS_LOG("open %s\n", fptr+0xa);
v0 = 1 + mcd;
break;
}
pptr[8] = pptr[9] = 0xff;
for (j=0, xor=0; j<127; j++) xor^= pptr[j];
pptr[127] = xor;
- SysPrintf("openC %s %d\n", ptr, nblk);
+ PSXBIOS_LOG("openC %s %d\n", ptr, nblk);
v0 = 1 + mcd;
/* just go ahead and resave them all */
SaveMcd(cfg, ptr, 128, 128 * 15);
void psxBios_open() { // 0x32
void *pa0 = Ra0;
-#ifdef PSXBIOS_LOG
- PSXBIOS_LOG("psxBios_%s: %s,%x\n", biosB0n[0x32], Ra0, a1);
-#endif
+ PSXBIOS_LOG("psxBios_%s %s %x\n", biosB0n[0x32], Ra0, a1);
v0 = -1;
char *ptr;
void *pa1 = Ra1;
-#ifdef PSXBIOS_LOG
- PSXBIOS_LOG("psxBios_%s: %x,%x,%x\n", biosB0n[0x35], a0, a1, a2);
-#endif
+ if (a0 != 1) // stdout
+ PSXBIOS_LOG("psxBios_%s: %x,%x,%x\n", biosB0n[0x35], a0, a1, a2);
v0 = -1;
if (pa1 == INVALID_PTR) {
char *ptr = pa1;
v0 = a2;
- while (a2 > 0) {
+ if (Config.PsxOut) while (a2 > 0) {
SysPrintf("%c", *ptr++); a2--;
}
pc0 = ra; return;
}
void psxBios_putchar() { // 3d
- SysPrintf("%c", (char)a0);
+ if (Config.PsxOut) SysPrintf("%c", (char)a0);
pc0 = ra;
}
void psxBios_puts() { // 3e/3f
- SysPrintf("%s", Ra0);
+ if (Config.PsxOut) SysPrintf("%s", Ra0);
pc0 = ra;
}
+static void bufile(const u8 *mcd_data, u32 dir_) {
+ struct DIRENTRY *dir = (struct DIRENTRY *)castRam8ptr(dir_);
+ const char *pfile = ffile + 5;
+ const u8 *data = mcd_data;
+ int i = 0, match = 0;
+ int blocks = 1;
+ u32 head = 0;
-/* To avoid any issues with different behaviour when using the libc's own strlen instead.
- * We want to mimic the PSX's behaviour in this case for bufile. */
-static size_t strlen_internal(char* p)
-{
- size_t size_of_array = 0;
- while (*p++) size_of_array++;
- return size_of_array;
-}
-
-#define bufile(mcd) { \
- size_t size_of_name = strlen_internal(dir->name); \
- while (nfile < 16) { \
- int match=1; \
- \
- ptr = Mcd##mcd##Data + 128 * (nfile + 1); \
- nfile++; \
- if ((*ptr & 0xF0) != 0x50) continue; \
- /* Bug link files show up as free block. */ \
- if (!ptr[0xa]) continue; \
- ptr+= 0xa; \
- if (pfile[0] == 0) { \
- strncpy(dir->name, ptr, sizeof(dir->name) - 1); \
- if (size_of_name < sizeof(dir->name)) dir->name[size_of_name] = '\0'; \
- } else for (i=0; i<20; i++) { \
- if (pfile[i] == ptr[i]) { \
- dir->name[i] = ptr[i]; continue; } \
- if (pfile[i] == '?') { \
- dir->name[i] = ptr[i]; continue; } \
- if (pfile[i] == '*') { \
- strcpy(dir->name+i, ptr+i); break; } \
- match = 0; break; \
- } \
- SysPrintf("%d : %s = %s + %s (match=%d)\n", nfile, dir->name, pfile, ptr, match); \
- if (match == 0) { continue; } \
- dir->size = 8192; \
- v0 = _dir; \
- break; \
- } \
+ v0 = 0;
+ for (; nfile <= 15 && !match; nfile++) {
+ const char *name;
+
+ head = nfile * 0x40;
+ data = mcd_data + 128 * nfile;
+ name = (const char *)data + 0x0a;
+ if ((data[0] & 0xF0) != 0x50) continue;
+ /* Bug link files show up as free block. */
+ if (!name[0]) continue;
+ match = 1;
+ for (i = 0; i < 20; i++) {
+ if (pfile[i] == name[i] || pfile[i] == '?')
+ dir->name[i] = name[i];
+ else if (pfile[i] == '*') {
+ int len = strlen(name + i);
+ if (i + len > 20)
+ len = 20 - i;
+ memcpy(dir->name + i, name + i, len + 1);
+ i += len;
+ break;
+ }
+ else {
+ match = 0;
+ break;
+ }
+ if (!name[i])
+ break;
+ }
+ PSXBIOS_LOG("%d : %s = %s + %s (match=%d)\n",
+ nfile, dir->name, pfile, name, match);
+ }
+ for (; nfile <= 15; nfile++, blocks++) {
+ const u8 *data2 = mcd_data + 128 * nfile;
+ const char *name = (const char *)data2 + 0x0a;
+ if ((data2[0] & 0xF0) != 0x50 || name[0])
+ break;
+ }
+ if (match) {
+ // nul char of full lenth name seems to overwrite .attr
+ dir->attr = SWAP32(i < 20 ? data[0] & 0xf0 : 0); // ?
+ dir->size = 8192 * blocks;
+ dir->head = head;
+ v0 = dir_;
+ }
+ PSXBIOS_LOG(" -> %x '%s' %x %x %x %x\n", v0, v0 ? dir->name : "",
+ dir->attr, dir->size, dir->next, dir->head);
}
/*
* struct DIRENTRY* firstfile(char *name,struct DIRENTRY *dir);
*/
-void psxBios_firstfile() { // 42
- struct DIRENTRY *dir = (struct DIRENTRY *)Ra1;
- void *pa0 = Ra0;
- u32 _dir = a1;
- char *ptr;
- int i;
-
-#ifdef PSXBIOS_LOG
- PSXBIOS_LOG("psxBios_%s: %s\n", biosB0n[0x42], Ra0);
-#endif
+static void psxBios_firstfile() { // 42
+ char *pa0 = castRam8ptr(a0);
+ PSXBIOS_LOG("psxBios_%s %s %x\n", biosB0n[0x42], pa0, a1);
v0 = 0;
- if (pa0 != INVALID_PTR) {
- strcpy(ffile, pa0);
- pfile = ffile+5;
- nfile = 0;
+ {
+ snprintf(ffile, sizeof(ffile), "%s", pa0);
+ if (ffile[5] == 0)
+ strcpy(ffile + 5, "*"); // maybe?
+ nfile = 1;
if (!strncmp(pa0, "bu00", 4)) {
// firstfile() calls _card_read() internally, so deliver it's event
DeliverEvent(0xf0000011, 0x0004);
- bufile(1);
+ bufile((u8 *)Mcd1Data, a1);
} else if (!strncmp(pa0, "bu10", 4)) {
// firstfile() calls _card_read() internally, so deliver it's event
DeliverEvent(0xf0000011, 0x0004);
- bufile(2);
+ bufile((u8 *)Mcd2Data, a1);
}
}
*/
void psxBios_nextfile() { // 43
- struct DIRENTRY *dir = (struct DIRENTRY *)Ra0;
- u32 _dir = a0;
- char *ptr;
- int i;
-
-#ifdef PSXBIOS_LOG
- PSXBIOS_LOG("psxBios_%s: %s\n", biosB0n[0x43], dir->name);
-#endif
+ PSXBIOS_LOG("psxBios_%s %x\n", biosB0n[0x43], a0);
v0 = 0;
-
- if (!strncmp(ffile, "bu00", 4)) {
- bufile(1);
- }
-
- if (!strncmp(ffile, "bu10", 4)) {
- bufile(2);
- }
+ if (!strncmp(ffile, "bu00", 4))
+ bufile((u8 *)Mcd1Data, a0);
+ else if (!strncmp(ffile, "bu10", 4))
+ bufile((u8 *)Mcd2Data, a0);
pc0 = ra;
}
if (strcmp(Ra0+5, ptr+0xa)) continue; \
*ptr = (*ptr & 0xf) | 0xA0; \
SaveMcd(Config.Mcd##mcd, Mcd##mcd##Data, 128 * i, 1); \
- SysPrintf("delete %s\n", ptr+0xa); \
+ PSXBIOS_LOG("delete %s\n", ptr+0xa); \
v0 = 1; \
break; \
} \
}
void psxBios_InitCARD() { // 4a
-#ifdef PSXBIOS_LOG
+ u32 *ram32 = (u32 *)psxM;
PSXBIOS_LOG("psxBios_%s: %x\n", biosB0n[0x4a], a0);
-#endif
+ write_chain(ram32 + A_PADCRD_CHN_E/4, 0, 0x49bc, 0x4a4c);
+ // (maybe) todo: early_card_irq, etc
- pc0 = ra;
+ ram32[A_PAD_IRQR_ENA/4] = SWAP32(a0);
+
+ psxBios_FlushCache();
+ mips_return_c(0, 34+13+15+6);
}
void psxBios_StartCARD() { // 4b
-#ifdef PSXBIOS_LOG
PSXBIOS_LOG("psxBios_%s\n", biosB0n[0x4b]);
-#endif
+ psxBios_SysDeqIntRP_(2, A_PADCRD_CHN_E);
+ psxBios_SysEnqIntRP_(2, A_PADCRD_CHN_E);
- pc0 = ra;
+ psxHwWrite16(0x1f801074, psxHu32(0x1074) | 1);
+ storeRam32(A_PAD_ACK_VBL, 1);
+ storeRam32(A_RCNT_VBL_ACK + (3 << 2), 0);
+ storeRam32(A_CARD_IRQR_ENA, 1);
+ psxRegs.CP0.n.SR |= 0x401;
+
+ mips_return_c(1, 200);
}
void psxBios_StopCARD() { // 4c
-#ifdef PSXBIOS_LOG
PSXBIOS_LOG("psxBios_%s\n", biosB0n[0x4c]);
-#endif
-
- pc0 = ra;
+ storeRam32(A_RCNT_VBL_ACK + (3 << 2), 1);
+ psxBios_SysDeqIntRP_(2, A_PADCRD_CHN_E);
+ storeRam32(A_CARD_IRQR_ENA, 0);
+ psxRegs.CP0.n.SR |= 0x401;
+ mips_return_void_c(200);
}
void psxBios__card_write() { // 0x4e
v0 = 0; pc0 = ra;
return;
}
- card_active_chan = a0;
+ storeRam32(A_CARD_CHAN1, a0);
port = a0 >> 4;
if (pa2 != INVALID_PTR) {
v0 = 0; pc0 = ra;
return;
}
- card_active_chan = a0;
+ storeRam32(A_CARD_CHAN1, a0);
port = a0 >> 4;
if (pa2 != INVALID_PTR) {
mips_return_c(A_B0_TABLE, 3);
}
-void psxBios__card_chan() { // 0x58
-#ifdef PSXBIOS_LOG
+static void psxBios__card_chan() { // 0x58
+ u32 ret;
PSXBIOS_LOG("psxBios_%s\n", biosB0n[0x58]);
-#endif
- v0 = card_active_chan;
- pc0 = ra;
+ // todo: should return active slot chan
+ // (active - which was last processed by irq code)
+ ret = loadRam32(A_CARD_CHAN1);
+ mips_return_c(ret, 8);
}
-void psxBios_ChangeClearPad() { // 5b
-#ifdef PSXBIOS_LOG
+static void psxBios_ChangeClearPad() { // 5b
+ u32 ret;
PSXBIOS_LOG("psxBios_%s: %x\n", biosB0n[0x5b], a0);
-#endif
+ ret = loadRam32(A_PAD_ACK_VBL);
+ storeRam32(A_PAD_ACK_VBL, a0);
- pc0 = ra;
+ mips_return_c(ret, 6);
}
-void psxBios__card_status() { // 5c
-#ifdef PSXBIOS_LOG
- PSXBIOS_LOG("psxBios_%s: %x\n", biosB0n[0x5c], a0);
-#endif
+static void psxBios__card_status() { // 5c
+ PSXBIOS_LOG("psxBios_%s %x\n", biosB0n[0x5c], a0);
- v0 = card_active_chan;
+ v0 = 1; // ready
pc0 = ra;
}
-void psxBios__card_wait() { // 5d
-#ifdef PSXBIOS_LOG
- PSXBIOS_LOG("psxBios_%s: %x\n", biosB0n[0x5d], a0);
-#endif
+static void psxBios__card_wait() { // 5d
+ PSXBIOS_LOG("psxBios_%s %x\n", biosB0n[0x5d], a0);
- v0 = 1;
+ v0 = 1; // ready
pc0 = ra;
}
/* System calls C0 */
-static void psxBios_SysEnqIntRP();
-
static void psxBios_InitRCnt() { // 00
int i;
PSXBIOS_LOG("psxBios_%s %x\n", biosC0n[0x00], a0);
psxHwWrite16(0x1f801100 + i*0x10 + 8, 0);
psxHwWrite16(0x1f801100 + i*0x10 + 0, 0);
}
- a1 = 0x6d88;
- psxBios_SysEnqIntRP();
+ psxBios_SysEnqIntRP_(a0, 0x6d88);
mips_return_c(0, 9);
}
static void psxBios_InitException() { // 01
PSXBIOS_LOG("psxBios_%s %x\n", biosC0n[0x01], a0);
- a1 = 0x6da8;
- psxBios_SysEnqIntRP();
+ psxBios_SysEnqIntRP_(a0, 0x6da8);
mips_return_c(0, 9);
}
* int SysEnqIntRP(int index , long *queue);
*/
-static void psxBios_SysEnqIntRP() { // 02
+static void psxBios_SysEnqIntRP_(u32 priority, u32 chain_eptr) {
u32 old, base = loadRam32(A_TT_ExCB);
- PSXBIOS_LOG("psxBios_%s %x %x\n", biosC0n[0x02], a0, a1);
- old = loadRam32(base + (a0 << 3));
- storeRam32(base + (a0 << 3), a1);
- storeRam32(a1, old);
+ old = loadRam32(base + (priority << 3));
+ storeRam32(base + (priority << 3), chain_eptr);
+ storeRam32(chain_eptr, old);
mips_return_c(0, 9);
}
+static void psxBios_SysEnqIntRP() { // 02
+ PSXBIOS_LOG("psxBios_%s %x %x\n", biosC0n[0x02], a0, a1);
+ psxBios_SysEnqIntRP_(a0, a1);
+}
+
/*
* int SysDeqIntRP(int index , long *queue);
*/
-static void psxBios_SysDeqIntRP_() { // 03
+static void psxBios_SysDeqIntRP_(u32 priority, u32 chain_rm_eptr) {
u32 ptr, next, base = loadRam32(A_TT_ExCB);
u32 lim = 0, ret = 0;
// as in original: no arg checks of any kind, bug if a1 == 0
- ptr = loadRam32(base + (a0 << 3));
+ ptr = loadRam32(base + (priority << 3));
while (ptr) {
next = loadRam32(ptr);
- if (ptr == a1) {
- storeRam32(base + (a0 << 3), next);
+ if (ptr == chain_rm_eptr) {
+ storeRam32(base + (priority << 3), next);
ret = ptr;
use_cycles(6);
break;
}
- while (next && next != a1 && lim++ < 100) {
+ while (next && next != chain_rm_eptr && lim++ < 100) {
ptr = next;
next = loadRam32(ptr);
use_cycles(8);
}
- if (next == a1) {
+ if (next == chain_rm_eptr) {
next = loadRam32(next);
storeRam32(ptr, next);
ret = ptr;
break;
}
if (lim == 100)
- PSXBIOS_LOG("bad chain %u %x\n", a0, base);
+ PSXBIOS_LOG("bad chain %u %x\n", priority, base);
mips_return_c(ret, 12);
}
static void psxBios_SysDeqIntRP() { // 03
PSXBIOS_LOG("psxBios_%s %x %x\n", biosC0n[0x03], a0, a1);
- psxBios_SysDeqIntRP_();
+ psxBios_SysDeqIntRP_(a0, a1);
}
static void psxBios_get_free_EvCB_slot() { // 04
static void psxBios_InitDefInt() { // 0c
PSXBIOS_LOG("psxBios_%s %x\n", biosC0n[0x0c], a0);
// should also clear the autoack table
- a1 = 0x6d98;
- psxBios_SysEnqIntRP();
+ psxBios_SysEnqIntRP_(a0, 0x6d98);
mips_return_c(0, 20 + 6*2);
}
void (*biosC0[256+128])();
void (**biosB0)() = biosC0 + 128;
-#include "sjisfont.h"
-
-void setup_mips_code()
+static void setup_mips_code()
{
u32 *ptr;
ptr = (u32 *)&psxM[A_SYSCALL];
ptr[0x60/4] = SWAPu32(0x40037000); // mfc0 $v1, EPC
ptr[0x64/4] = SWAPu32(0x40026800); // mfc0 $v0, Cause
- ptr[0x68/4] = SWAPu32(0x24630004); // addiu $v1, $v1, 4
ptr[0x6c/4] = SWAPu32(0xaf430080); // sw $v1, 0x80($k0)
ptr[0xb0/4] = HLEOP(hleop_exception);
{ 0x1920, hleop_exc1_3_1 },
{ 0x1794, hleop_exc1_3_2 },
{ 0x2458, hleop_exc3_0_2 },
+ { 0x49bc, hleop_exc_padcard1 },
+ { 0x4a4c, hleop_exc_padcard2 },
};
static int chain_hle_op(u32 handler)
d[1] = SWAPu32(handler1);
d[2] = SWAPu32(handler2);
- // install hle traps
- PSXMu32ref(handler1) = HLEOP(chain_hle_op(handler1));
- PSXMu32ref(handler2) = HLEOP(chain_hle_op(handler2));
+ // install the hle traps
+ if (handler1) PSXMu32ref(handler1) = HLEOP(chain_hle_op(handler1));
+ if (handler2) PSXMu32ref(handler2) = HLEOP(chain_hle_op(handler2));
}
-static void setup_tt(u32 tcb_cnt, u32 evcb_cnt)
+static void setup_tt(u32 tcb_cnt, u32 evcb_cnt, u32 stack)
{
u32 *ram32 = (u32 *)psxM;
- u32 s_excb = 0x20, s_evcb = 0x1c * evcb_cnt;
- u32 s_pcb = 4, s_tcb = 0xc0 * tcb_cnt;
+ u32 s_excb = 0x20, s_evcb, s_pcb = 4, s_tcb;
u32 p_excb, p_evcb, p_pcb, p_tcb;
+ u32 i;
+
+ PSXBIOS_LOG("setup: tcb %u, evcb %u\n", tcb_cnt, evcb_cnt);
+
+ // the real bios doesn't care, but we just don't
+ // want to crash in case of garbage parameters
+ if (tcb_cnt > 1024) tcb_cnt = 1024;
+ if (evcb_cnt > 1024) evcb_cnt = 1024;
+ s_evcb = 0x1c * evcb_cnt;
+ s_tcb = 0xc0 * tcb_cnt;
memset(ram32 + 0xe000/4, 0, s_excb + s_evcb + s_pcb + s_tcb + 5*4);
psxBios_SysInitMemory_(0xa000e000, 0x2000);
storeRam32(p_pcb, p_tcb);
storeRam32(p_tcb, 0x4000); // first TCB
+ for (i = 1; i < tcb_cnt; i++)
+ storeRam32(p_tcb + sizeof(TCB) * i, 0x1000);
// default events
storeRam32(A_CD_EVENTS + 0x00, OpenEvent(0xf0000003, 0x0010, EvMdMARK, 0));
storeRam32(A_CD_EVENTS + 0x08, OpenEvent(0xf0000003, 0x0040, EvMdMARK, 0));
storeRam32(A_CD_EVENTS + 0x0c, OpenEvent(0xf0000003, 0x0080, EvMdMARK, 0));
storeRam32(A_CD_EVENTS + 0x10, OpenEvent(0xf0000003, 0x8000, EvMdMARK, 0));
- DeliverEvent(0xf0000003, 0x0010);
+
+ storeRam32(A_CONF_EvCB, evcb_cnt);
+ storeRam32(A_CONF_TCB, tcb_cnt);
+ storeRam32(A_CONF_SP, stack);
}
+static const u32 gpu_ctl_def[] = {
+ 0x00000000, 0x01000000, 0x03000000, 0x04000000,
+ 0x05000800, 0x06c60260, 0x0703fc10, 0x08000027
+};
+
+static const u32 gpu_data_def[] = {
+ 0xe100360b, 0xe2000000, 0xe3000800, 0xe4077e7f,
+ 0xe5001000, 0xe6000000,
+ 0x02000000, 0x00000000, 0x01ff03ff
+};
+
+// from 1f801d80
+static const u16 spu_config[] = {
+ 0x3fff, 0x37ef, 0x5ebc, 0x5ebc, 0x0000, 0x0000, 0x0000, 0x00a0,
+ 0x0000, 0x0000, 0x0000, 0x0000, 0xffff, 0x00ff, 0x0000, 0x0000,
+ 0x0000, 0xe128, 0x0000, 0x0200, 0xf0f0, 0xc085, 0x0004, 0x0000,
+ 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000,
+ 0x033d, 0x0231, 0x7e00, 0x5000, 0xb400, 0xb000, 0x4c00, 0xb000,
+ 0x6000, 0x5400, 0x1ed6, 0x1a31, 0x1d14, 0x183b, 0x1bc2, 0x16b2,
+ 0x1a32, 0x15ef, 0x15ee, 0x1055, 0x1334, 0x0f2d, 0x11f6, 0x0c5d,
+ 0x1056, 0x0ae1, 0x0ae0, 0x07a2, 0x0464, 0x0232, 0x8000, 0x8000
+};
+
+void psxBiosSetupBootState(void)
+{
+ boolean hle = Config.HLE;
+ u32 *hw = (u32 *)psxH;
+ int i;
+
+ // see also SetBootRegs()
+ if (hle) {
+ v0 = 1; v1 = 4;
+ a0 = 1; a2 = a3 = 0; a3 = 0x2a;
+ t2 = 0x2d; t4 = 0x23; t5 = 0x2b; t6 = 0xa0010000;
+ s0 = 0xa000b870;
+ k0 = 0xbfc0d968; k1 = 0xf1c;
+ ra = 0xf0001234; // just to easily detect attempts to return
+ psxRegs.CP0.n.Cause = 0x20;
+ psxRegs.CP0.n.EPC = 0xbfc0d964; // EnterCriticalSection syscall
+
+ hw[0x1000/4] = SWAP32(0x1f000000);
+ hw[0x1004/4] = SWAP32(0x1f802000);
+ hw[0x1008/4] = SWAP32(0x0013243f);
+ hw[0x100c/4] = SWAP32(0x00003022);
+ hw[0x1010/4] = SWAP32(0x0013243f);
+ hw[0x1014/4] = SWAP32(0x200931e1);
+ hw[0x1018/4] = SWAP32(0x00020943);
+ hw[0x101c/4] = SWAP32(0x00070777);
+ hw[0x1020/4] = SWAP32(0x0000132c);
+ hw[0x1060/4] = SWAP32(0x00000b88);
+ hw[0x1070/4] = SWAP32(0x00000001);
+ hw[0x1074/4] = SWAP32(0x0000000c);
+ hw[0x2040/4] = SWAP32(0x00000900);
+ }
+
+ hw[0x10a0/4] = SWAP32(0x00ffffff);
+ hw[0x10a8/4] = SWAP32(0x00000401);
+ hw[0x10b0/4] = SWAP32(0x0008b000);
+ hw[0x10b4/4] = SWAP32(0x00010200);
+ hw[0x10e0/4] = SWAP32(0x000eccf4);
+ hw[0x10e4/4] = SWAP32(0x00000400);
+ hw[0x10e8/4] = SWAP32(0x00000002);
+ hw[0x10f0/4] = SWAP32(0x00009099);
+ hw[0x10f4/4] = SWAP32(0x8c8c0000);
+
+ if (hle) {
+ psxRcntWmode(0, 0);
+ psxRcntWmode(1, 0);
+ psxRcntWmode(2, 0);
+ }
+
+ // gpu
+ for (i = 0; i < sizeof(gpu_ctl_def) / sizeof(gpu_ctl_def[0]); i++)
+ GPU_writeStatus(gpu_ctl_def[i]);
+ for (i = 0; i < sizeof(gpu_data_def) / sizeof(gpu_data_def[0]); i++)
+ GPU_writeData(gpu_data_def[i]);
+ HW_GPU_STATUS |= SWAP32(PSXGPU_nBUSY);
+
+ // spu
+ for (i = 0x1f801d80; i < sizeof(spu_config) / sizeof(spu_config[0]); i++)
+ SPU_writeRegister(0x1f801d80 + i*2, spu_config[i], psxRegs.cycle);
+}
+
+static void hleExc0_0_1();
+static void hleExc0_0_2();
+static void hleExc0_1_1();
+static void hleExc0_1_2();
+
+#include "sjisfont.h"
+
void psxBiosInit() {
u32 *ptr, *ram32, *rom32;
+ char *romc;
int i;
uLongf len;
+ psxRegs.biosBranchCheck = ~0;
+
memset(psxM, 0, 0x10000);
for(i = 0; i < 256; i++) {
biosA0[i] = NULL;
biosA0[0x3e] = biosB0[0x3f] = psxBios_puts_psxout;
biosA0[0x3f] = psxBios_printf_psxout;
- if (!Config.HLE) return;
+ if (!Config.HLE) {
+ char verstr[0x24+1];
+ rom32 = (u32 *)psxR;
+ memcpy(verstr, psxR + 0x12c, 0x24);
+ verstr[0x24] = 0;
+ SysPrintf("BIOS: %08x, '%s', '%c'\n", SWAP32(rom32[0x100/4]),
+ verstr, psxR[0x7ff52]);
+ return;
+ }
for(i = 0; i < 256; i++) {
if (biosA0[i] == NULL) biosA0[i] = psxBios_dummy;
biosA0[0x3b] = psxBios_getchar;
biosA0[0x3c] = psxBios_putchar;
//biosA0[0x3d] = psxBios_gets;
+ biosA0[0x3e] = psxBios_puts;
+ biosA0[0x3f] = psxBios_printf;
biosA0[0x40] = psxBios_SystemErrorUnresolvedException;
//biosA0[0x41] = psxBios_LoadTest;
biosA0[0x42] = psxBios_Load;
//biosA0[0x99] = psxBios_EnableKernelIORedirection;
//biosA0[0x9a] = psxBios_sys_a0_9a;
//biosA0[0x9b] = psxBios_sys_a0_9b;
- //biosA0[0x9c] = psxBios_SetConf;
- //biosA0[0x9d] = psxBios_GetConf;
+ biosA0[0x9c] = psxBios_SetConf;
+ biosA0[0x9d] = psxBios_GetConf;
//biosA0[0x9e] = psxBios_sys_a0_9e;
biosA0[0x9f] = psxBios_SetMem;
//biosA0[0xa0] = psxBios__boot;
//biosA0[0xb1] = psxBios_sys_a0_b1;
//biosA0[0xb2] = psxBios_do_a_long_jmp
//biosA0[0xb3] = psxBios_sys_a0_b3;
- //biosA0[0xb4] = psxBios_sub_function;
+ biosA0[0xb4] = psxBios_GetSystemInfo;
//*******************B0 CALLS****************************
biosB0[0x00] = psxBios_SysMalloc;
//biosB0[0x01] = psxBios_sys_b0_01;
//biosB0[0x3a] = psxBios_getc;
//biosB0[0x3b] = psxBios_putc;
biosB0[0x3c] = psxBios_getchar;
+ biosB0[0x3d] = psxBios_putchar;
//biosB0[0x3e] = psxBios_gets;
- //biosB0[0x40] = psxBios_cd;
+ biosB0[0x3f] = psxBios_puts;
+ biosB0[0x40] = psxBios_cd;
biosB0[0x41] = psxBios_format;
biosB0[0x42] = psxBios_firstfile;
biosB0[0x43] = psxBios_nextfile;
//************** THE END ***************************************
/**/
- pad_stopped = 1;
- pad_buf = NULL;
- pad_buf1 = NULL;
- pad_buf2 = NULL;
- pad_buf1len = pad_buf2len = 0;
- heap_addr = NULL;
- heap_end = NULL;
- heap_size = 0;
memset(FDesc, 0, sizeof(FDesc));
- card_active_chan = 0;
-
- // initial RNG seed
- psxMu32ref(0x9010) = SWAPu32(0xac20cc00);
+ memset(cdir, 0, sizeof(cdir));
+ floodchk = 0;
+ // somewhat pretend to be a SCPH1001 BIOS
+ // some games look for these and take an exception if they're missing
rom32 = (u32 *)psxR;
rom32[0x100/4] = SWAP32(0x19951204);
rom32[0x104/4] = SWAP32(3);
- strcpy(psxR + 0x108, "PCSX authors");
- strcpy(psxR + 0x12c, "PCSX HLE");
+ romc = (char *)psxR;
+ strcpy(romc + 0x108, "PCSX authors");
+ strcpy(romc + 0x12c, "CEX-3000 PCSX HLE"); // see psxBios_GetSystemInfo
+ strcpy(romc + 0x7ff32, "System ROM Version 2.2 12/04/95 A");
+ strcpy(romc + 0x7ff54, "GPL-2.0-or-later");
// fonts
len = 0x80000 - 0x66000;
len = 0x80000 - 0x69d68;
uncompress((Bytef *)(psxR + 0x69d68), &len, font_889f, sizeof(font_889f));
- // memory size 2 MB
- psxHu32ref(0x1060) = SWAPu32(0x00000b88);
+ // trap attempts to call bios directly
+ rom32[0x00000/4] = HLEOP(hleop_dummy);
+ rom32[0x00180/4] = HLEOP(hleop_dummy);
+ rom32[0x3fffc/4] = HLEOP(hleop_dummy);
+ rom32[0x65ffc/4] = HLEOP(hleop_dummy);
+ rom32[0x7ff2c/4] = HLEOP(hleop_dummy);
/* Some games like R-Types, CTR, Fade to Black read from adress 0x00000000 due to uninitialized pointers.
See Garbage Area at Address 00000000h in Nocash PSX Specfications for more information.
ram32[0x00b0/4] = HLEOP(hleop_b0);
ram32[0x00c0/4] = HLEOP(hleop_c0);
- setup_tt(4, 16);
+ setup_tt(4, 16, 0x801fff00);
+ DeliverEvent(0xf0000003, 0x0010);
ram32[0x6ee0/4] = SWAPu32(0x0000eff0); // DCB
strcpy((char *)&ram32[0xeff0/4], "bu");
// (or rather the funcs listed there)
ptr = (u32 *)&psxM[A_A0_TABLE];
for (i = 0; i < 256; i++)
- ptr[i] = SWAP32(0x1000);
+ ptr[i] = SWAP32(A_A0_DUMMY);
ptr = (u32 *)&psxM[A_B0_TABLE];
for (i = 0; i < 256; i++)
- ptr[i] = SWAP32(0x2000);
+ ptr[i] = SWAP32(A_B0_DUMMY);
// B(5b) is special because games patch (sometimes even jump to)
// code at fixed offsets from it, nocash lists offsets:
// patch: +3d8, +4dc, +594, +62c, +9c8, +1988
// call: +7a0=4b70, +884=4c54, +894=4c64
- ptr[0x5b] = SWAP32(0x43d0);
- ram32[0x4b70/4] = SWAP32(0x03e00008); // jr $ra
- ram32[0x4c54/4] = SWAP32(0x03e00008); // jr $ra
+ ptr[0x5b] = SWAP32(A_B0_5B_DUMMY); // 0x43d0
+ ram32[0x4b70/4] = SWAP32(0x03e00008); // jr $ra // setPadOutputBuf
+
+ ram32[0x4c54/4] = SWAP32(0x240e0001); // mov $t6, 1
+ ram32[0x4c58/4] = SWAP32(0x03e00008); // jr $ra
+ ram32[0x4c5c/4] = SWAP32(0xac0e0000 + A_PAD_IRQR_ENA); // sw $t6, ...
+
ram32[0x4c64/4] = SWAP32(0x03e00008); // jr $ra
+ ram32[0x4c68/4] = SWAP32(0xac000000 + A_PAD_IRQR_ENA); // sw $0, ...
ptr = (u32 *)&psxM[A_C0_TABLE];
for (i = 0; i < 256/2; i++)
- ptr[i] = SWAP32(0x3000);
+ ptr[i] = SWAP32(A_C0_DUMMY);
ptr[6] = SWAP32(A_EXCEPTION);
// more HLE traps
- ram32[0x1000/4] = HLEOP(hleop_dummy);
- ram32[0x2000/4] = HLEOP(hleop_dummy);
- ram32[0x3000/4] = HLEOP(hleop_dummy);
- ram32[0x4c54/4] = HLEOP(hleop_dummy); // for B12_InitPad?
+ ram32[A_A0_DUMMY/4] = HLEOP(hleop_dummy);
+ ram32[A_B0_DUMMY/4] = HLEOP(hleop_dummy);
+ ram32[A_C0_DUMMY/4] = HLEOP(hleop_dummy);
+ ram32[A_B0_5B_DUMMY/4] = HLEOP(hleop_dummy);
ram32[0x8000/4] = HLEOP(hleop_execret);
ram32[A_EEXIT_PTR/4] = SWAP32(A_EEXIT_DEF);
ram32[A_RCNT_VBL_ACK/4 + 1] = SWAP32(1);
ram32[A_RCNT_VBL_ACK/4 + 2] = SWAP32(1);
ram32[A_RCNT_VBL_ACK/4 + 3] = SWAP32(1);
+ ram32[A_RND_SEED/4] = SWAPu32(0x24040001); // was 0xac20cc00
}
void psxBiosShutdown() {
}
-void psxBiosCnfLoaded(u32 tcb_cnt, u32 evcb_cnt) {
- if (tcb_cnt != 4 || evcb_cnt != 16)
- setup_tt(tcb_cnt, evcb_cnt);
+void psxBiosCnfLoaded(u32 tcb_cnt, u32 evcb_cnt, u32 stack) {
+ if (stack == 0)
+ stack = 0x801FFF00;
+ if (tcb_cnt != 4 || evcb_cnt != 16) {
+ setup_tt(tcb_cnt, evcb_cnt, stack);
+ DeliverEvent(0xf0000003, 0x0010);
+ }
+ storeRam32(A_CONF_SP, stack);
}
#define psxBios_PADpoll(pad) { \
+ int i, more_data = 0; \
PAD##pad##_startPoll(pad); \
- pad_buf##pad[0] = 0; \
- pad_buf##pad[1] = PAD##pad##_poll(0x42); \
- if (!(pad_buf##pad[1] & 0x0f)) { \
- bufcount = 32; \
- } else { \
- bufcount = (pad_buf##pad[1] & 0x0f) * 2; \
- } \
- PAD##pad##_poll(0); \
+ pad_buf##pad[1] = PAD##pad##_poll(0x42, &more_data); \
+ pad_buf##pad[0] = more_data ? 0 : 0xff; \
+ PAD##pad##_poll(0, &more_data); \
i = 2; \
- while (bufcount--) { \
- pad_buf##pad[i++] = PAD##pad##_poll(0); \
+ while (more_data) { \
+ pad_buf##pad[i++] = PAD##pad##_poll(0, &more_data); \
} \
}
-static void biosPadHLE() {
- int i, bufcount;
-
- if (pad_buf != NULL) {
- u32 *buf = (u32*)pad_buf;
-
- PAD1_startPoll(1);
- if (PAD1_poll(0x42) == 0x23) {
- PAD1_poll(0);
- *buf = PAD1_poll(0) << 8;
- *buf |= PAD1_poll(0);
- PAD1_poll(0);
- *buf &= ~((PAD1_poll(0) > 0x20) ? 1 << 6 : 0);
- *buf &= ~((PAD1_poll(0) > 0x20) ? 1 << 7 : 0);
- } else {
- PAD1_poll(0);
- *buf = PAD1_poll(0) << 8;
- *buf|= PAD1_poll(0);
- }
-
- PAD2_startPoll(2);
- if (PAD2_poll(0x42) == 0x23) {
- PAD2_poll(0);
- *buf |= PAD2_poll(0) << 24;
- *buf |= PAD2_poll(0) << 16;
- PAD2_poll(0);
- *buf &= ~((PAD2_poll(0) > 0x20) ? 1 << 22 : 0);
- *buf &= ~((PAD2_poll(0) > 0x20) ? 1 << 23 : 0);
- } else {
- PAD2_poll(0);
- *buf |= PAD2_poll(0) << 24;
- *buf |= PAD2_poll(0) << 16;
- }
- }
- if (!pad_stopped) {
- if (pad_buf1) {
- psxBios_PADpoll(1);
- }
-
- if (pad_buf2) {
- psxBios_PADpoll(2);
- }
- }
-}
-
static void handle_chain_x_x_1(u32 enable, u32 irqbit)
{
use_cycles(10);
// hleExc0_{0,1}* are usually removed by A(56)/A(72) on the game's startup,
// so this is only partially implemented
-void hleExc0_0_1() // A(93h) - CdromDmaIrqFunc2
+static void hleExc0_0_1() // A(93h) - CdromDmaIrqFunc2
{
u32 cdrom_dma_ack_enable = 1; // a000b93c
handle_chain_x_x_1(cdrom_dma_ack_enable, 3); // IRQ3 DMA
}
-void hleExc0_0_2() // A(91h) - CdromDmaIrqFunc1
+static void hleExc0_0_2() // A(91h) - CdromDmaIrqFunc1
{
u32 ret = 0;
//PSXBIOS_LOG("%s\n", __func__);
mips_return_c(ret, 20);
}
-void hleExc0_1_1() // A(92h) - CdromIoIrqFunc2
+static void hleExc0_1_1() // A(92h) - CdromIoIrqFunc2
{
u32 cdrom_irq_ack_enable = 1; // a000b938
handle_chain_x_x_1(cdrom_irq_ack_enable, 2); // IRQ2 cdrom
}
-void hleExc0_1_2() // A(90h) - CdromIoIrqFunc1
+static void hleExc0_1_2() // A(90h) - CdromIoIrqFunc1
{
u32 ret = 0;
if (psxHu32(0x1074) & psxHu32(0x1070) & 4) { // IRQ2 cdrom
mips_return_c(ret, 20);
}
-void hleExc0_2_2_syscall() // not in any A/B/C table
+static void hleExc0_2_2_syscall() // not in any A/B/C table
{
- u32 code = (psxRegs.CP0.n.Cause & 0x3c) >> 2;
u32 tcbPtr = loadRam32(A_TT_PCB);
TCB *tcb = loadRam32ptr(tcbPtr);
+ u32 code = (SWAP32(tcb->cause) & 0x3c) >> 2;
if (code != R3000E_Syscall) {
if (code != 0) {
DeliverEvent(0xf0000010, 0x1000);
- psxBios_SystemErrorUnresolvedException();
+ //psxBios_SystemErrorUnresolvedException();
}
mips_return_c(0, 17);
return;
}
- //printf("%s c=%d a0=%d\n", __func__, code, a0);
+ //printf("%s c=%d a0=%d\n", __func__, code, SWAP32(tcb->reg[4]));
tcb->epc += SWAP32(4);
- switch (a0) {
+ switch (SWAP32(tcb->reg[4])) { // a0
case 0: // noop
break;
case 3: { // ChangeThreadSubFunction
u32 tcbPtr = loadRam32(A_TT_PCB);
- storeRam32(tcbPtr, a1);
+ storeRam32(tcbPtr, SWAP32(tcb->reg[5])); // a1
break;
}
default:
psxBios_ReturnFromException();
}
-void hleExc1_0_1(void)
+static void hleExc1_0_1(void)
{
u32 vbl_irq_ack_enable = loadRam32(A_RCNT_VBL_ACK + 0x0c); // 860c
handle_chain_x_x_1(vbl_irq_ack_enable, 0); // IRQ0 vblank
mips_return_c(ret, 22);
}
-void hleExc1_0_2(void)
+static void hleExc1_0_2(void)
{
handle_chain_1_x_2(3, 0); // IRQ0 vblank
}
-void hleExc1_1_1(void)
+static void hleExc1_1_1(void)
{
u32 rcnt_irq_ack_enable = loadRam32(A_RCNT_VBL_ACK + 0x08); // 8608
handle_chain_x_x_1(rcnt_irq_ack_enable, 6); // IRQ6 rcnt2
}
-void hleExc1_1_2(void)
+static void hleExc1_1_2(void)
{
handle_chain_1_x_2(2, 6); // IRQ6 rcnt2
}
-void hleExc1_2_1(void)
+static void hleExc1_2_1(void)
{
u32 rcnt_irq_ack_enable = loadRam32(A_RCNT_VBL_ACK + 0x04); // 8604
handle_chain_x_x_1(rcnt_irq_ack_enable, 5); // IRQ5 rcnt1
}
-void hleExc1_2_2(void)
+static void hleExc1_2_2(void)
{
handle_chain_1_x_2(1, 5); // IRQ5 rcnt1
}
-void hleExc1_3_1(void)
+static void hleExc1_3_1(void)
{
u32 rcnt_irq_ack_enable = loadRam32(A_RCNT_VBL_ACK + 0x00); // 8600
handle_chain_x_x_1(rcnt_irq_ack_enable, 4); // IRQ4 rcnt0
}
-void hleExc1_3_2(void)
+static void hleExc1_3_2(void)
{
handle_chain_1_x_2(0, 4); // IRQ4 rcnt0
}
-void hleExc3_0_2_defint(void)
+static void hleExc3_0_2_defint(void)
{
static const struct {
u8 ev, irqbit;
mips_return_c(0, 11 + 7*11 + 7*11 + 12);
}
+static void hleExcPadCard1(void)
+{
+ if (loadRam32(A_PAD_IRQR_ENA)) {
+ u8 *pad_buf1 = loadRam8ptr(A_PAD_INBUF + 0);
+ u8 *pad_buf2 = loadRam8ptr(A_PAD_INBUF + 4);
+
+ psxBios_PADpoll(1);
+ psxBios_PADpoll(2);
+ use_cycles(100);
+ if (loadRam32(A_PAD_DR_DST))
+ psxBios_PAD_dr_();
+ }
+ if (loadRam32(A_PAD_ACK_VBL))
+ psxHwWrite16(0x1f801070, ~1);
+ if (loadRam32(A_CARD_IRQR_ENA)) {
+ // todo, maybe
+ }
+
+ mips_return_c(0, 18);
+}
+
+static void hleExcPadCard2(void)
+{
+ u32 ret = psxHu32(0x1074) & psxHu32(0x1070) & 1;
+ mips_return_c(ret, 15);
+}
+
void psxBiosException() {
u32 tcbPtr = loadRam32(A_TT_PCB);
u32 *chains = loadRam32ptr(A_TT_ExCB);
int i;
// save the regs
- // $at, $v0, $v1 already saved by the mips code at A_EXCEPTION
- for (i = 4; i < 32; i++) {
+ // $at, $v0, $v1, $ra already saved by the mips code at A_EXCEPTION
+ for (i = 4; i < 31; i++) {
if (i == 26) // $k0
continue;
tcb->reg[i] = SWAP32(psxRegs.GPR.r[i]);
}
tcb->lo = SWAP32(psxRegs.GPR.n.lo);
tcb->hi = SWAP32(psxRegs.GPR.n.hi);
- tcb->epc = SWAP32(psxRegs.CP0.n.EPC);
+ //tcb->epc = SWAP32(psxRegs.CP0.n.EPC); // done by asm
tcb->sr = SWAP32(psxRegs.CP0.n.SR);
tcb->cause = SWAP32(psxRegs.CP0.n.Cause);
sp = fp = loadRam32(A_EXC_SP);
gp = A_EXC_GP;
use_cycles(46);
+ assert(!psxRegs.cpuInRecursion);
// do the chains (always 4)
for (c = lim = 0; c < 4; c++) {
}
assert(lim < 100);
- // TODO make this a chain entry
- if (psxHu32(0x1070) & 1)
- biosPadHLE();
-
// return from exception (custom or default)
use_cycles(23);
ptr = loadRam32(A_EEXIT_PTR);
psxBios_ReturnFromException();
}
+/* HLE */
+static void hleDummy() {
+ log_unhandled("hleDummy called @%08x ra=%08x\n", psxRegs.pc - 4, ra);
+ psxRegs.pc = ra;
+ psxRegs.cycle += 1000;
+
+ psxBranchTest();
+}
+
+static void hleA0() {
+ u32 call = t1 & 0xff;
+ u32 entry = loadRam32(A_A0_TABLE + call * 4);
+
+ if (call < 192 && entry != A_A0_DUMMY) {
+ PSXBIOS_LOG("custom A%02x %s(0x%x, ) addr=%08x ra=%08x\n",
+ call, biosA0n[call], a0, entry, ra);
+ softCall(entry);
+ pc0 = ra;
+ PSXBIOS_LOG(" -> %08x\n", v0);
+ }
+ else if (biosA0[call])
+ biosA0[call]();
+
+ //printf("A(%02x) -> %x\n", call, v0);
+ psxBranchTest();
+}
+
+static void hleB0() {
+ u32 call = t1 & 0xff;
+ u32 entry = loadRam32(A_B0_TABLE + call * 4);
+ int is_custom = 0;
+
+ if (call == 0x5b)
+ is_custom = entry != A_B0_5B_DUMMY;
+ else
+ is_custom = entry != A_B0_DUMMY;
+ if (is_custom) {
+ PSXBIOS_LOG("custom B%02x %s(0x%x, ) addr=%08x ra=%08x\n",
+ call, biosB0n[call], a0, entry, ra);
+ softCall(entry);
+ pc0 = ra;
+ PSXBIOS_LOG(" -> %08x\n", v0);
+ }
+ else if (biosB0[call])
+ biosB0[call]();
+
+ //printf("B(%02x) -> %x\n", call, v0);
+ psxBranchTest();
+}
+
+static void hleC0() {
+ u32 call = t1 & 0xff;
+ u32 entry = loadRam32(A_C0_TABLE + call * 4);
+
+ if (call < 128 && entry != A_C0_DUMMY) {
+ PSXBIOS_LOG("custom C%02x %s(0x%x, ) addr=%08x ra=%08x\n",
+ call, biosC0n[call], a0, entry, ra);
+ softCall(entry);
+ pc0 = ra;
+ PSXBIOS_LOG(" -> %08x\n", v0);
+ }
+ else if (biosC0[call])
+ biosC0[call]();
+
+ //printf("C(%02x) -> %x\n", call, v0);
+ psxBranchTest();
+}
+
+// currently not used
+static void hleBootstrap() {
+ CheckCdrom();
+ LoadCdrom();
+}
+
+static void hleExecRet() {
+ const EXEC *header = (EXEC *)PSXM(s0);
+
+ PSXBIOS_LOG("ExecRet %x: %x\n", s0, header->ret);
+
+ ra = SWAP32(header->ret);
+ sp = SWAP32(header->_sp);
+ fp = SWAP32(header->_fp);
+ gp = SWAP32(header->_gp);
+ s0 = SWAP32(header->base);
+
+ v0 = 1;
+ psxRegs.pc = ra;
+}
+
+void (* const psxHLEt[24])() = {
+ hleDummy, hleA0, hleB0, hleC0,
+ hleBootstrap, hleExecRet, psxBiosException, hleDummy,
+ hleExc0_0_1, hleExc0_0_2,
+ hleExc0_1_1, hleExc0_1_2, hleExc0_2_2_syscall,
+ hleExc1_0_1, hleExc1_0_2,
+ hleExc1_1_1, hleExc1_1_2,
+ hleExc1_2_1, hleExc1_2_2,
+ hleExc1_3_1, hleExc1_3_2,
+ hleExc3_0_2_defint,
+ hleExcPadCard1, hleExcPadCard2,
+};
+
+void psxBiosCheckExe(u32 t_addr, u32 t_size, int loading_state)
+{
+ // lw $v0, 0x10($sp)
+ // nop
+ // addiu $v0, -1
+ // sw $v0, 0x10($sp)
+ // lw $v0, 0x10($sp)
+ // nop
+ // bne $v0, $v1, not_timeout
+ // nop
+ // lui $a0, ...
+ static const u8 pattern[] = {
+ 0x10, 0x00, 0xA2, 0x8F, 0x00, 0x00, 0x00, 0x00,
+ 0xFF, 0xFF, 0x42, 0x24, 0x10, 0x00, 0xA2, 0xAF,
+ 0x10, 0x00, 0xA2, 0x8F, 0x00, 0x00, 0x00, 0x00,
+ 0x0C, 0x00, 0x43, 0x14, 0x00, 0x00, 0x00, 0x00,
+ };
+ u32 start = t_addr & 0x1ffffc;
+ u32 end = (start + t_size) & 0x1ffffc;
+ u32 buf[sizeof(pattern) / sizeof(u32)];
+ const u32 *r32 = (u32 *)(psxM + start);
+ u32 i, j;
+
+ if (end <= start)
+ return;
+ if (!Config.HLE)
+ return;
+
+ memcpy(buf, pattern, sizeof(buf));
+ for (i = 0; i < t_size / 4; i += j + 1) {
+ for (j = 0; j < sizeof(buf) / sizeof(buf[0]); j++)
+ if (r32[i + j] != buf[j])
+ break;
+ if (j != sizeof(buf) / sizeof(buf[0]))
+ continue;
+
+ if ((SWAP32(r32[i + j]) >> 16) != 0x3c04) // lui
+ continue;
+ if (!loading_state)
+ SysPrintf("HLE vsync @%08x\n", start + i * 4);
+ psxRegs.biosBranchCheck = (t_addr & 0xa01ffffc) + i * 4;
+ }
+}
+
+void psxBiosCheckBranch(void)
+{
+#if 1
+ // vsync HLE hack
+ static u32 cycles_prev, v0_prev;
+ u32 cycles_passed, waste_cycles;
+ u32 loops, v0_expect = v0_prev - 1;
+ if (v0 != 1)
+ return;
+ execI(&psxRegs);
+ cycles_passed = psxRegs.cycle - cycles_prev;
+ cycles_prev = psxRegs.cycle;
+ v0_prev = v0;
+ if (cycles_passed < 10 || cycles_passed > 50 || v0 != v0_expect)
+ return;
+
+ waste_cycles = schedule_timeslice() - psxRegs.cycle;
+ loops = waste_cycles / cycles_passed;
+ if (loops > v0)
+ loops = v0;
+ v0 -= loops;
+ psxRegs.cycle += loops * cycles_passed;
+ //printf("c %4u %d\n", loops, cycles_passed);
+#endif
+}
+
#define bfreeze(ptr, size) { \
if (Mode == 1) memcpy(&psxR[base], ptr, size); \
if (Mode == 0) memcpy(ptr, &psxR[base], size); \
}
#define bfreezes(ptr) bfreeze(ptr, sizeof(ptr))
-#define bfreezel(ptr) bfreeze(ptr, sizeof(*ptr))
-
-#define bfreezepsxMptr(ptr, type) { \
- if (Mode == 1) { \
- if (ptr) psxRu32ref(base) = SWAPu32((s8 *)(ptr) - psxM); \
- else psxRu32ref(base) = 0; \
- } else { \
- if (psxRu32(base) != 0) ptr = (type *)(psxM + psxRu32(base)); \
- else (ptr) = NULL; \
- } \
- base += sizeof(u32); \
-}
+#define bfreezel(ptr) bfreeze(ptr, sizeof(*(ptr)))
void psxBiosFreeze(int Mode) {
u32 base = 0x40000;
- bfreezepsxMptr(pad_buf, int);
- bfreezepsxMptr(pad_buf1, char);
- bfreezepsxMptr(pad_buf2, char);
- bfreezepsxMptr(heap_addr, u32);
bfreezes(FDesc);
- bfreezel(&card_active_chan);
- bfreezel(&pad_stopped);
- bfreezel(&heap_size);
+ bfreezes(ffile);
+ bfreezel(&nfile);
+ bfreezes(cdir);
}